Probe for detecting hepatitis b virus and use thereof

ABSTRACT

A probe for detecting hepatitis B virus and a method for detecting an insertion site of hepatitis B virus at high efficiency based on the analysis method of next-generation sequencing using the probe is disclosed. A probe can be provided that is capable of confirming the insertion site of HBV in the human genome with a possibility of developing into liver cancer. In addition, by applying the probe to the analysis method of next-generation sequencing, HBV insertion sites in the human genome can be analyzed at low cost and high efficiency.

CROSS-REFERENCE TO RELATED APPLICATION

This application claims priority to and the benefit of Korean Patent Application No. 10-2019-0139264, filed on Nov. 4, 2019, the disclosure of which is incorporated herein by reference in its entirety.

SEQUENCE LISTING

The instant application contains a Sequence Listing which has been submitted in XML format and is hereby incorporated by reference in its entirety. Said XML copy, created on Dec. 28, 2020, is named “ELIP111seq.txt” and is 58.5 kilobytes in size.

BACKGROUND 1. Field of the Invention

The present invention relates to a probe for detecting hepatitis B virus and a method for detecting an insertion site of hepatitis B virus at high efficiency based on the analysis method of next-generation sequencing using the probe.

2. Discussion of Related Art

Hepatitis B virus (HBV) is a disease which is the main cause of liver cancer, and approximately 300 million people worldwide are affected by HBV. Hepatitis B virus (hereinafter, referred to as ‘HBV’) is a virus belonging to the Hepadnaviridae family and infects only liver cells of humans specifically. Symptoms of hepatitis are fatigue for mild cases, and jaundice may appear in severe cases. In the late stage of the disease, complications of cirrhosis such as, ascites, edema, gastroesophageal variceal bleeding, hepatic encephalopathy, blood coagulation abnormality, and hepatorenal syndrome can appear.

In the case of patients who have been infected in childhood, the period of immune tolerance occurs continuously for 10 to 30 years in which the proliferation of virus occurs but no symptoms of hepatitis appear, but when these healthy carriers reach a certain period (15 to 30 years old), hepatocytes are damaged by the action of the immune system and develop into hepatitis. When e-antigen seroconversion (HBeAg seroconversion) occurs quickly, viral proliferation is suppressed and symptoms of hepatitis do not develop any further, but when the proliferation of virus is not effectively suppressed, and it develops into chronic hepatitis and liver cirrhosis, and in severe cases, it develops into liver cancer.

Hepatitis B virus can be inserted (integration) into the human genome during viral proliferation and life cycle, and although this step is not essential for viral replication, integration of the HBV DNA into a host genome contributes to the occurrence of liver cancer by inducing genomic instability and altering the expression of cancer-related genes. Until recently, the existence of this genomic insertion phenomenon has traditionally been discovered by polymerase chain reaction (PCR), but this method has a limitation in finding all of HBV-inserted molecules in the entire human genome because it biases detection of only the inserted virus localized in the human genome region designated by a specific primer. Therefore, a new method was necessary to investigate HBV insertion in the entire human genome.

Recently, with the introduction of next-generation sequencing (NGS) technology, it is possible to overcome the limitations of traditional PCR-based studies and to attempt non-biased detection of HBV insertion sites across the entire human genome. The present invention provides a method for analyzing HBV insertion sites at high efficiency based on NGS and a probe applied thereto.

SUMMARY OF THE INVENTION

The present invention provides a probe for detecting hepatitis B virus and a method for detecting an insertion site of hepatitis B virus at high efficiency based on the analysis method of next-generation sequencing using the probe.

The present invention provides a probe composition for detecting hepatitis B virus (HBV) consisting of sequences of SEQ ID NO: 1 to SEQ ID NO: 215.

In addition, the present invention may provide a kit for detecting hepatitis B virus (HBV) including the probe composition.

In addition, the present invention may provide a method for detecting hepatitis B virus (HBV), wherein the method is a method for detecting hepatitis B virus (HBV) through next-generation sequencing (NGS), the method including hybridizing a target sample with a probe composition for detecting hepatitis B virus (HBV) consisting of a sequence selected from the group consisting of SEQ ID NO: 1 to SEQ ID NO: 215 to capture a target gene.

In addition, the present invention may provide a method for providing information for the diagnosis of liver cancer using the method.

According to the present invention, a probe may be provided that is capable of confirming an insertion site of HBV in the human genome with a possibility of developing into liver cancer. In addition, by applying the probe to the analysis method of next-generation sequencing, HBV insertion sites in the human genome can be analyzed at low cost and high efficiency.

BRIEF DESCRIPTION OF THE DRAWINGS

The above and other objects, features and advantages of the present invention will become more apparent to those of ordinary skill in the art by describing in detail exemplary embodiments thereof with reference to the accompanying drawings, in which:

FIG. 1 schematically illustrates a process of analyzing an HBV insertion site;

FIG. 2 and FIG. 3 show results of measuring between libraries using Agilent 4200 Tape Station and D1000 Screen Tape; and

FIG. 4 shows results of breakpoint analysis of human chromosomes in tumor tissue.

DETAILED DESCRIPTION OF EXEMPLARY EMBODIMENTS

Hereinafter, the present invention will be described in detail.

The present invention may detect an insertion site of hepatitis B virus (HBV) located in the human genome at high efficiency based on next-generation sequencing (NGS). Specifically, in a DNA library constructed from a patient's liver tissue, an HBV sequence may be captured with a probe complementary to the self-constructed HBV. Based on this, HBV and breakpoints of the human genome may be detected (refer to FIG. 1 ).

As used herein, the term “probe” refers to a nucleic acid fragment corresponding to several bases to several hundred bases for specific binding to DNA or RNA, and afterwards, the presence or absence of specific DNA or RNA may be confirmed by amplification, separation, and detection.

The present invention provides a probe for detecting hepatitis B virus (HBV) consisting of nucleotide sequences of SEQ ID NO: 1 to SEQ ID NO: 215.

The probe may detect an insertion site of hepatitis B virus in the human genome. More specifically, the probe may detect an insertion site of hepatitis B virus (HBV) using the analysis method of next-generation sequencing.

The probe may be applied to the detection of hepatitis B virus of Koreans, and more specifically, it may be applied to the detection of genotype hepatitis C virus.

The length of the probe is 120 nucleotides. When the length of the probe is too short or too long, false hybridization increases and the likelihood of a decrease in specificity increases. In the present invention, hybridization efficiency was maximized by optimizing the length of a probe as above.

In addition, the probe is based on the complete genome sequences of 8 prototypes of hepatitis B virus (HBV) of Koreans, and by allowing each HBV nucleotide sequence to overlap, it is designed to have almost 100% coverage for hepatitis B virus (HBV) of Koreans.

In addition, the present invention provides a composition for detecting hepatitis B virus (HBV), including the probe. The composition may include deoxynucleoside triphosphate (dNTP), heat-resistant polymerase, and a metal ion salt such as magnesium chloride and the like, in addition to the probe.

In addition, the present invention provides a kit for detecting hepatitis B virus (HBV), including the composition.

The kit may include a barcoding primer in which an adapter suitable for the NGS device to be used is combined with a barcode sequence.

In addition, the kit may further include a reagent commonly used in a method for detecting nucleic acid. For example, it may include deoxynucleoside triphosphate (dNTP), heat-resistant polymerase, and a metal ion salt such as magnesium chloride and the like that are required for PCR reaction, and may include dNTP, sequenase, and the like that are required for sequencing. In addition, the kit may take the form of a bottle, a tub, a sachet, an envelope, a tube, an ampoule, and the like, and these may be partially or entirely formed from plastic, glass, paper, foil, wax, and the like. The container may be equipped with a completely or partially removable plug, which is initially part of a container or may be attached to the container by mechanical, adhesive, or other means. The container may be equipped with a stopper that may allow access to the contents by an injection needle. The kit may include an external package, and the external package may include instructions for use of the components.

The present invention provides a method for detecting hepatitis B virus (HBV), wherein the method is a method for detecting hepatitis B virus (HBV) through next-generation sequencing (NGS), the method including hybridizing a target sample with a probe for detecting hepatitis B virus (HBV) composed of a sequence selected from the group consisting of SEQ ID NO: 1 to SEQ ID NO: 215 to capture a target gene.

As used herein, the term “hybridization” means that complementary single-stranded nucleic acids form double-stranded nucleic acids. The degree of complementarity required for hybridization may vary depending on the hybridization conditions, and in particular, if it can be optimized at temperature, it may be preferably optimized to a temperature described in the protocol that can be specified by the probe manufacturer.

As used herein, the term “target gene” refers to a gene sequence to be detected, and it is hybridized with a probe under hybridization, annealing, or amplification conditions.

As used herein, the term “target gene” is not different from the terms used in the present specification such as “target gene”, “target gene sequence”, or “target sequence”, and these terms are used interchangeably in the present specification.

As used herein, a target sample refers to a sample including a gene region to be detected, and it may be collected from at least one selected from the group consisting of tissue, blood, serum, saliva, urine, semen, and body fluid, and specifically, it may be liver tissue derived from a patient.

In addition, the present invention provides a method for detecting hepatitis B virus (HBV), including (a) hybridizing a target sample including a target gene with a probe for detecting hepatitis B virus (HBV) composed of a sequence selected from the group consisting of SEQ ID NO: 1 to SEQ ID NO: 215 to capture a target gene and amplifying to create a library; and (b) sequencing the library to map the produced nucleotide sequence in the human and HBV reference sequences for analysis to confirm an insertion site of hepatitis B virus (HBV) in the human genome.

The hybridizing may be performed at a temperature of 65° C. for 16 hours to 24 hours.

Since it is a temperature and time condition that optimizes the efficiency of probe hybridization, the hybridization efficiency may be lowered when an experiment outside this range is performed.

The target gene may be a hepatitis B virus (HBV) gene of Koreans.

In addition, the present invention may provide a method for providing information for the diagnosis of liver cancer, using the method.

Hereinafter, the present invention will be described in more detail through exemplary embodiments. Objects, features, and advantages of the present invention will be easily understood through the following exemplary embodiments. The present invention is not limited to the exemplary embodiment described herein, and may be embodied in other forms. The exemplary embodiments introduced herein are provided in order to sufficiently convey the spirit of the present invention to those of ordinary skill in the technical field to which the present invention pertains. Therefore, the present invention should not be limited by the following exemplary embodiments.

EXAMPLES Example 1: Preparation of probe for HBV detection

In order to perform next-generation sequencing analysis for the detection of an HBV insertion site, a probe for HBV capture was prepared based on the following complete genome sequences of 8 representative Korean HBV types. Complementary probes were prepared such that each HBV nucleotide sequence overlapped with each other. The probe was synthesized through the HPLC purification method, and the concentration and purity of the synthesized probe were confirmed using the BioAnalyzer device.

TABLE 1 HBV Prototype Target Reference

start

end

KR184660.1 Hepatitis B virus isolate SS_3_22, 1

3207

complete genome

JN315779.1 Hepatitis B virus genotype C2, 1

3215

complete genome

GQ872211.1 Hepatitis B virus, complete genome

1

3215

D23680.1 Hepatitis B virus (B4-HBVST1) 1

3194

complete genome sequence

AY641559.1 Hepatitis B virus isolate He53, 1

3215

complete genome

isolate 36Y18HCC“,”AB014395.1 Hepatitis B virus 1

3119

genomic DNA, complete sequence

isolate 22Y04HCC“,”AB014381.1 Hepatitis B virus 1

3215

genomic DNA, complete sequence

DQ683578.1 Hepatitis B virus from South Korea, 1

3215

complete genome

(Sequence Information)

The probe targets the following 8 viruses.

complete genome“,”AY641559.1 Hepatitis B virus isolate He53 (can be found at www.ncbi.nlm.nih.gov as AY641559.1)

complete genome“,”DQ683578.1 Hepatitis B virus from South Korea (can be found at www.ncbi.nlm.nih.gov as DQ683578.1)

complete genome“,”GQ872211.1 Hepatitis B virus (can be found at www.ncbi.nlm.nih.gov as GQ872210.1)

complete genome“,”JN315779.1 Hepatitis B virus genotype C2 (can be found at www.ncbi.nlm.nih.gov as JN315779)

complete genome“,”KR184660.1 Hepatitis B virus isolate SS 3 22 (can be found at www.ncbi.nlm.nih.gov as KR184660.1)

complete sequence, isolate 22Y04HCC″,“AB014381.1 Hepatitis B virus genomic DNA (can be found at www.ncbi.nlm.nih.gov as 3582357)

complete sequence, isolate 36Y18HCC”,“AB014395.1 Hepatitis B virus genomic DNA (can be found at www.ncbi.nlm.nih.gov as 3551389)

D23680.1 Hepatitis B virus (B4-HBVST1) complete genome sequence (can be found at www.ncbi.nlm.nih.gov as D23680.1)

Based on the above contents, it was prepared by Tilling density 1X, Boosting: balanced, probe group size: 25.595 kbp, Total probe: 215. The sequence information of each designed probe was shown in Table 2 below.

TABLE 2 TargetID ProbeID Sequence SEQ ID NO KR184660.1 Hepatitis B probe_HBV_ CTCCACAACATTCCACCAAGCTCTGCT SEQ ID NO: 1 virus isolate SS_3_22, 012017_1 AGATCCCAGAGTGAGGGGCCTATATTT complete genome TCCTGCTGGTGGCTCCAGTTCCGGAAC AGTAAACCCTGTTCCGACTATTGTCTC ACCCATATCGTC KR184660.1 Hepatitis B probe_HBV_ AAGCAGGCCTTCACTTTCTCGCCAACT SEQ ID NO: 2 virus isolate SS_3_22, 012017_10 TACAAGGCCTTTCTGTGTAAACAATAT complete genome CTGCACCTTTACCCCGTTGCCCGGCAA CGGTCAGGTCTCTGCCAAGTATTTGCT GACGCAACCCCC D23680.1 Hepatitis B probe_HBV_ TTCCTCACATTCATTTACAGGAGGACA SEQ ID NO: 3 virus (B4-HBVST1) 012017_100 TTATTAATAGATGTGAACAATATGTGG complete genome GCCCTCTTACAGTTAATGAAAAAAGGA sequence GATTAAAATTAATTATGCCTGCTAGGT TCTATCCTAACC D23680.1 Hepatitis B probe_HBV_ TTACCAAATATTTGCCATTGGACAAAG SEQ ID NO: 4 virus (B4-HBVST1) 012017_101 GCATTAAACCATATTATCCTGAACATG complete genome CAGTTAATCATTACTTCAAAACTAGGC sequence ATTATTTACATACTCTGTGGAAGGCGG GCATTCTATATA D23680.1 Hepatitis B probe_HBV_ AGAGAGAAACTACACGCAGTGCCTCA SEQ ID NO: 5 virus (B4-HBVST1) 012017_102 TTCTGTGGGTCACCATATTCTTGGGAA complete genome CAAGAGCTACAGCATGGGAGGTTGGT sequence CTTCCAAACCTCGACAAGGCATGGGGA CGAATCTTTCTGTT D23680.1 Hepatitis B probe_HBV_ CCCAATCCTCTGGGATTCTTTCCCGATC SEQ ID NO: 6 virus (B4-HBVST1) 012017_103 ACCAGTTGGACCCTGCATTCGGAGCCA complete genome ACTCAAACAATCCAGATTGGGACTTCA sequence ACCCCAACAAGGATCATTGGCCAGAG GCAAATCAGGTA D23680.1 Hepatitis B probe_HBV_ GGAGCGGGAGCATTCGGGCCAGGGTT SEQ ID NO: 7 virus (B4-HBVST1) 012017_104 CACCCCACCACACGGCGGTCTTTTGGG complete genome GTGGAGCCCGCAGGCTCAGGGCATATT sequence GACAACCGTGCCAGTAGCACCTCCTCC TGCCTCCACCAAT AY641559.1 Hepatitis B probe_HBV_ CTCCACCACATTCCACCAAGCTCTACT SEQ ID NO: 8 virus isolate He53, 012017_105 AGATCCCAGAGTGAGGGGCCTATATTT complete genome TCCTGCTGGTGGCTCCAGTTCCGGAAC AGTAAACCCTGTTCCGACTACTGCCTC ACCCATATCGTC AY641559.1 Hepatitis B probe_HBV_ AATCTTCTCGAGGACTGGGGACCCTGC SEQ ID NO: 9 virus isolate He53, 012017_106 ACCGAACATGGAGAGCACAACATCAG complete genome GATTCCTAGGACCCCTGCTCGTGTTAC AGGCGGGGTTTTTCTTGTTGACAAGAA TCCTCACAATACC AY641559.1 Hepatitis B probe_HBV_ ACAGAGTCTAGACTCGTGGTGGACTTC SEQ ID NO: 10 virus isolate He53, 012017_107 TCTCAATTTTCTAGGGGGAGCACCCAC complete genome GTGTCCTGGCCAAAATTCGCAGTCCCC AACCTCCAATCACTCACCAACCTCTTG TCCTCCAATTTG AY641559.1 Hepatitis B probe_HBV_ TCCTGGCTATCGCTGGATGTGTCTGCG SEQ ID NO: 11 virus isolate He53, 012017_108 GCGTTTTATCATATTCCTCTTCATCCTG complete genome CTGCTATGCCTCATCTTCTTGTTGGTTC TTCTGGACTACCAAGGTATGTTGCCCG TTTGTCCTCT AY641559.1 Hepatitis B probe_HBV_ ACTTCCAGGAACATCAACTACCAGCAC SEQ ID NO: 12 virus isolate He53, 012017_109 GGGACCATGCAAGACCTGCACGATTCC complete genome TGCTCAAGGAACCTCTATGTTTCCCTCT TGTTGCTGTACAAAACCTTCGGACGGA AATTGCACTTG KR184660.1 Hepatitis B probe_HBV_ ACTGGATGGGGCTTGGCCATAGGCCAT SEQ ID NO: 13 virus isolate SS_3_22, 012017_11 CGGCGCATGCGTGGAACCTTTGTGGCT complete genome CCTCTGCCGATCCATACTGCGGAACTC CTAGCAGCTTGTTTTGCTCGCAGCCGG TCTGGAGCGAAA AY641559.1 Hepatitis B probe_HBV_ TATTCCCATCCCATCATCCTGGGCTTTC SEQ ID NO: 14 virus isolate He53, 012017_110 GCAAAATTCCTATGGGAGTGGGCCTCA complete genome GTCCGTTTCTCCTGGCTCAATTTACTAG TGCCATTTGTTCAGTGGTTCGCAGGGC TTTCCCCCAC AY641559.1 Hepatitis B probe_HBV_ TGTTTGGCTTTCAGTTATATGGATGAT SEQ ID NO: 15 virus isolate He53, 012017_111 GTGGTATTGGGGGCCAAGTCTGTACAA complete genome CATCTTGAGGCCCTTTATACCTCTATTA CCAATTTTCTTGTGTCTTTGGGTATACA TTTGAACCCT AY641559.1 Hepatitis B probe_HBV_ AATAAAACCAAACGTTGGGGCTACTCC SEQ ID NO: 16 virus isolate He53, 012017_112 CTTAACTTCATGGGATATGTAATTGGA complete genome AGTTGGGGTACTTTACCACAGGAACAT ATTGTACAAAAAATTAAGCAATGTTTT CGGAAACTGCCT AY641559.1 Hepatitis B probe_HBV_ GTCAATAGACCTATTGATTGGAAAGTA SEQ ID NO: 17 virus isolate He53, 012017_113 TGTCAAAGAATTGTAGGTCTTTTGGGA complete genome TTTGCTGCCCCTTTTACACAATGTGGCT ATCCTGCTTTGATGCCTTTATATGCATG TATACAAGCT AY641559.1 Hepatitis B probe_HBV_ AAGCAGGCTTTCACTTTCTCGTCAACT SEQ ID NO: 18 virus isolate He53, 012017_114 TACAAGGCCTTTCTGTGTAAACAATAT complete genome CTGCACCTTTACCCCGTTGCCCGGCAA CGGTCAGGTCTCTGCCAAGTGTTTGCT GACGCAACCCCC AY641559.1 Hepatitis B probe_HBV_ ACTGGATGGGGCTTGGCCATAGGCCAT SEQ ID NO: 19 virus isolate He53, 012017_115 CGGCGCATGCGTGGAACCTTTGTGGCT complete genome CCTCTGCCGATCCATACTGCGGAACTC CTAGCAGCTTGTTTTGCTCGCAGCCGG TCTGGAGCAAAC AY641559.1 Hepatitis B probe_HBV_ CTTATCGGGACTGACAACTCTGTTGTC SEQ ID NO: 20 virus isolate He53, 012017_116 CTCTCTCGGAAATACACCTCCTTCCCA complete genome TGGCTGCTCGGGTGTGCTGCCAACTGG ATCCTGCGCGGGACGTCCTTTGTCTAC GTCCCGTCGGCG AY641559.1 Hepatitis B probe_HBV_ CTGAATCCCGCGGACGACCCGTCTCGG SEQ ID NO: 21 virus isolate He53, 012017_117 GGCCGTTTGGGCCTCTACCGTCCCCTT complete genome CTTCATCTGCCGTTCCGGCCGACCACG GGGCGCACCTCTCTTTACGCGGTCTCC CCGTCTGTGCCT AY641559.1 Hepatitis B probe_HBV_ TCTCATCTGCCGGTCCGTGTGCACTTC SEQ ID NO: 22 virus isolate He53, 012017_118 GCTTCACCTCTGCACGTCGCATGGAAA complete genome CCACCGTGAACGCCCATCCGGTCTTGC CCAAGGTCTTATATAAGAGGACTCTTG GACTCTCAGCAA AY641559.1 Hepatitis B probe_HBV_ TGTCAACGACCGACCTTGAGGCATACT SEQ ID NO: 23 virus isolate He53, 012017_119 TCAAAGACTGTTTGTTTAAAGACTGGG complete genome AGGAGTTGGGGGAGGAGAATAGGTTA ATGATCTTTGTACTAGGAGGCTGTAGG CATAAATTGGTCT KR184660.1 Hepatitis B probe_HBV_ CTCATCGGGACTGACAACTCGGTTGTT SEQ ID NO: 24 virus isolate SS_3_22, 012017_12 CTCTCTCGGAAATACACCTCATTCCCA complete genome TGGCTGCTCGGGTGTGCTGCCAACTGG ATCCTGCGCGGGACGTCCTTTGTTTAC GTCCCGTCGGCG AY641559.1 Hepatitis B probe_HBV_ GTTCACCAGCACCATGCAACTTTTTCA SEQ ID NO: 25 virus isolate He53, 012017_120 CCTCTGCCTAATCATCTCTTGTTCATGT complete genome CCTACTGTTCAAGCCTCCAAGCTGTGC CTTGGGTGGCTTTAGGACATGGACATT GACCCGTATAA AY641559.1 Hepatitis B probe_HBV_ AGAATTTGGAGCTTCTGTGGAGTTGCT SEQ ID NO: 26 virus isolate He53, 012017_121 CTCTTTTTTGCCTTCTGACTTCTTTCCTT complete genome CTATTCGAGATCTCCTCGACACCGCCT CTGCTCTCTATCGGGAGGCCTTAGAGT CTCCGGAACA AY641559.1 Hepatitis B probe_HBV_ TTGTTCACCTCACCATACAGCACTCAG SEQ ID NO: 27 virus isolate He53, 012017_122 GCAAGCTATTCTGTGTTGGGGTGAGTT complete genome GATGAACCTGGCCACCTGGGTGGGAA GTAATTTGGAAGATCCTGCATCCAGGG AATTAGTAGTCAG AY641559.1 Hepatitis B probe_HBV_ CTATGTCAATGTTAATATGGGCCTAAA SEQ ID NO: 28 virus isolate He53, 012017_123 ACTCAGACAAATATTGTGGTTTCACAT complete genome TTCCTGTCTTACTTTTGGAAGAGAAAC CGTTCTTGAGTATTTGGTGTCTTTTGGA GTGTGGATTCG AY641559.1 Hepatitis B probe_HBV_ CACTCCTACCGCTTACAGACCACCAAA SEQ ID NO: 29 virus isolate He53, 012017_124 TGCCCCTATCTTATCAACACTTCCGGA complete genome AACTACTGTTGTTAGACGACGAGGCAG GACCCCTAGAAGAAGAACTCCCTCGCC TCGCAGACGAAG AY641559.1 Hepatitis B probe_HBV_ ATCTCAATCGCCGCGTCGCAGAAGATC SEQ ID NO: 30 virus isolate He53, 012017_125 TCAATCTCGGGAATCTCAATGTTAGTA complete genome TCCCCTGGACTCACAAGGTGGGAAATT TTACTGGGCTTTACTCGTCTACTGTACC TATCTTTAATC AY641559.1 Hepatitis B probe_HBV_ CTGATTGGCAAACTCCCTCCTTTCCTA SEQ ID NO: 31 virus isolate He53, 012017_126 ACATTCATTTACAGGAGGACATTATTG complete genome ATAGATGTCAACAATATGTAGGCCCTC TTACAGTTAATGAAAAAAGGAGATTA AAATTAATTATGC AY641559.1 Hepatitis B probe_HBV_ CTGCTAGGTTTTATCCTAACCTTACCA SEQ ID NO: 32 virus isolate He53, 012017_127 AATATTTGCCCTTGGATAAAGGCATTA complete genome AACCTTATTATCCTGAACATGCAGTTA ATCATTACTTCCAAACTAGGCATTATT TACATACTCTGT AY641559.1 Hepatitis B probe_HBV_ GGAAGGCTGGCATTCTATATAAGAGA SEQ ID NO: 33 virus isolate He53, 012017_128 GAAACTACACGCAGCGCTTCATTTTGT complete genome GGGTCACCATATTCTTGGGAACAAGAG CTACAGCATGGGAGGTTGGTCTTCCAA ACCTCGACAAGGC AY641559.1 Hepatitis B probe_HBV_ ATGGGGACGAATCTTTCTGTTCCCAAT SEQ ID NO: 34 virus isolate He53, 012017_129 CCTCTGGGATTCTTTCCCGATCACCAG complete genome TTGGACCCTGCGTTCGGAGCCAACTCA AACAATCCAGATTGGGACTTCAACCCC AACAAGGATCAC KR184660.1 Hepatitis B probe_HBV_ CTGAATCCCGCGGACGACCCGTCTCGC SEQ ID NO: 35 virus isolate SS_3_22, 012017_13 GGCCGTTTGGGCCTCTACCGTCCCCTT complete genome CTTCATCTGCCGTTCCGGCCGACCACG GGGCGCACCTCTCTTTACGCGGTCTCC CCGTCTGTGCCT AY641559.1 Hepatitis B probe_HBV_ TGGCCAGAGGCAAATCAGGTCGGAGT SEQ ID NO: 36 virus isolate He53, 012017_130 GGGAGCATTCGGGCCAGGGTTCACCCC complete genome ACCACACGGCGGTCTTTTGGGGTGGAG CCCTCAGGCTCGGGGCATAGTGACACC AGTGCCAGCAGCG isolate probe_HBV_ ACTGGGGACCCTGCACCGAACATGGA SEQ ID NO: 37 36Y18HCC″,″AB01439 012017_132 GAACACAACATCAGGATTCCTAGGACC 5.1 Hepatitis B virus CCTGCTCGTGTTACAGGCGGGGTTTTT genomic DNA, complete CTTGTTGACAAGAATCCTCACAATACC sequence ACAGAGTCTAGAC isolate probe_HBV_ TCGTGGTGGACTTCTCTCAATTTTCTAG SEQ ID NO: 38 36Y18HCC″,″AB01439 012017_133 GGGGAACACCCACGTGTCCTGGCCAA 5.1 Hepatitis B virus AATTCGCAGTCCCCAACCTCCAATCAC genomic DNA,complete TCACCAACCTCTTGTCCTCCAATTTGTC sequence CTGGCTATCGC isolate probe_HBV_ TGGATGTGTCTGCGGCGTTTTATCATA SEQ ID NO: 39 36Y18HCC″,″AB01439 012017_134 TTCCTCTTCATCCTGCTGCTATGCCTCA 5.1 Hepatitis B virus TCTTCTTGTTGGTTCTTCTGGACTACCA genomic DNA,complete AGGTATGTTGCCCGTTTGTCCTCTACTT sequence CCAGGAACA isolate probe_HBV_ TCAACTACCAGCACGGGACCATGCAA SEQ ID NO: 40 36Y18HCC″,″AB01439 012017_135 GACCTGCACGATTCCTGCTCAAGGCAC 5.1 Hepatitis B virus CTCTATGTTTCCCTCTTGTTGCTGTACA genomic DNA,complete AAACCTTCGGATGGAAACTGCACTTGT sequence ATTCCCATCCCA isolate probe_HBV_ TCATCCTGGGTTTTCGCAAGATTCCTAT SEQ ID NO: 41 36Y18HCC″,″AB01439 012017_136 GGGAGTGGGCCTCAGTCCGTTTCTCCT 5.1 Hepatitis B virus GGCTCAGTTTACTAGTGCCATTTGTTC genomic DNA,complete AGTGGTTCGTAGGGCTTTCCCCCACTG sequence TTTGGCTTTCA isolate probe_HBV_ GTTATATGGATGATATAGTATTGGGGG SEQ ID NO: 42 36Y18HCC″,″AB01439 012017_137 CCAAGTCTGTACAACATCTTGAGTCCC 5.1 Hepatitis B virus TTTATACCGCCATTACCAATTTTCTTTT genomic DNA,complete GTCTTTGGGTATACATTTGAACCCTAA sequence TAAAACCAAAC isolate probe_HBV_ GTTGGGGCTACTCCCTGAACTTCATGG SEQ ID NO: 43 36Y18HCC″,″AB01439 012017_138 GATATGTAATTGGAAGTTGGGGTACTT 5.1 Hepatitis B virus TACCGCAAGACCATATTGTACTAAAAC genomic DNA,complete TCAAGCAATGTTTTCGAAAACTGCCTG sequence TAAATAGACCTA isolate probe_HBV_ TTGATTGGAAAGTATGTCAGAGAATTG SEQ ID NO: 44 36Y18HCC″,″AB01439 012017_139 TGGGTCTTTTGGGCTTTGCTGCCCCTTT 5.1 Hepatitis B virus TACACAATGTGGCTATCCTGCCTTAAT genomic DNA,complete GCCTTTATATGCATGTATACAATCTAA sequence GCAGGCTTTCA KR184660.1 Hepatitis B probe_HBV_ TCTCATCTGCCGGACCGTGTGCACTTC SEQ ID NO: 45 virus isolate SS_3_22, 012017_14 GCTTCACCTCTGCACGTCGCATGGAGA complete genome CCACCGTGAACGCCCATCAGGTCTTGC CCAAGGTCTTACATAAGAGGACTCTTG GACTCTCAGCAA isolate probe_HBV_ TGGCTATTGGCCATCAGCGCATGCGTG SEQ ID NO: 46 36Y18HCC″,″AB01439 012017_141 GAACCTTTGTGGCTCCTCTGCCGATCC 5.1 Hepatitis B virus ATACTGCGGAACTCCTAGCAGCTTGTT genomic DNA,complete TTGCTCGCAGCCGGTCTGGAGCGAAAC sequence TGATCGGAACGG isolate probe_HBV_ ACAACTCTGTTGTTCTCTCTCGGAAAT SEQ ID NO: 47 36Y18HCC″,″AB01439 012017_142 ACACCTCCTTTCCATGGCTGCTAGGGT 5.1 Hepatitis B virus GTGCTGCCAACTGGATCCTGCGCGGGA genomic DNA,complete CGTCCTTTGTTTACGTCCCGTCGGCGCT sequence GAATCCCGCGG isolate probe_HBV_ ACGACCCATCTCGGGGCCGTTTGGGTC SEQ ID NO: 48 36Y18HCC″,″AB01439 012017_143 TCTACCGTCCCCTTCTTCATCTGCCGTT 5.1 Hepatitis B virus CCGGCCGACCACGGGGCGCACCTCTCT genomic DNA,complete TTACGCGGTCTCCCCGTCTGTGCCTTCT sequence CATCTGCCGG isolate probe_HBV_ ACCGTGTGCACTTCGCTTCACCTCTGC SEQ ID NO: 49 36Y18HCC″,″AB01439 012017_144 ACGTCGCATGGAGACCACCGTGAACG 5.1 Hepatitis B virus CCCACCAGGTCTTGCCCAAGGTCTTAT genomic DNA,complete ATAAGAGGACTCTTGGACTCTCAGCAA sequence TGTCAACGACCGA isolate probe_HBV_ CCTTGAGGCATACTTCAAAGACTGTTT SEQ ID NO: 50 36Y18HCC″,″AB01439 012017_145 GTTTAAGGACTGGGAGGAGTTGGGGG 5.1 Hepatitis B virus AGGAGTTTAGGTTAATGATCTTTGTAC genomic DNA,complete TAGGAGGCTGTAGGCATAAATTGGTCT sequence GTTCACCAGCACC isolate probe_HBV_ ATGCAACTTTTTCACCTCTGCCTAATCA SEQ ID NO: 51 36Y18HCC″,″AB01439 012017_146 TCTCATGTTCATGTCCTACTGTTCAAGC 5.1 Hepatitis B virus CTCCAAGCTGTGCCTTGGGTGGCTTTG genomic DNA,complete GGGCATGGACATTGACCCGTATAAAG sequence AATTTGGAGCT isolate probe_HBV_ TCTGTGGAGTTACTCTCTTTTTTGCCTT SEQ ID NO: 52 36Y18HCC″,″AB01439 012017_147 CTGACTTCTTTCCTTCTATTCGAGATCT 5.1 Hepatitis B virus CCTCGACACCGCCTCTGCTCTGTATCG genomic DNA,complete GGAGGCCTTAGAGTCTCCGGAACATTG sequence TTCACCTCAC isolate probe_HBV_ CATACAGCAATCAGGCAAGCTATTCTG SEQ ID NO: 53 36Y18HCC″,″AB01439 012017_148 TGTTGGGGTGAGTTGATGAATCTGGCC 5.1 Hepatitis B virus ACCTGGGTGGGAAGTAATTTGGAAGA genomic DNA,complete CCCAGCATCCAGGGAATTAGTAGTCAG sequence CTATGTCAATGTT isolate probe_HBV_ AATATGGGCCTAAAAATCAGACAACT SEQ ID NO: 54 36Y18HCC″,″AB01439 012017_149 ACTGTGGTTTCACATTTCCTGTCTTACT 5.1 Hepatitis B virus TTTGGAAGAGAAACTGTTCTTGAGTAT genomic DNA,complete TTGGTGTCTTTTGGAGTGTGGATTCGC sequence ACTCCTCCCGCT KR184660.1 Hepatitis B probe_HBV_ TGTCAACGTCCGACCTTGAGGCATACT SEQ ID NO: 55 virus isolate SS_3_22, 012017_15 TCAAAGACTGTTTGTTTAAGGACTGGG complete genome AGGAGTTGGGGGAGGAGATTAGGTTA AAGGTCTGGAGGCTGTAGGCATAAATT GGTCTGTTCACCA isolate probe_HBV_ TACAGACCACCAAATGCCCCTATCTTA SEQ ID NO: 56 36Y18HCC″,″AB01439 012017_150 TCAACACTTCCGGAAACTACTGTTGTT 5.1 Hepatitis B virus AGACGACGAGGCAGGTCCCCTAGAAG genomic DNA,complete AAGAACTCCCTCGCCTCGCAGACGAAG sequence GTCTCAATCGCCG isolate probe_HBV_ CGTCGCAGAAGATCTCAATCTCGGGAA SEQ ID NO: 57 36Y18HCC″,″AB01439 012017_151 TCTCAATGTTAGTATCCCTTGGACTCAT 5.1 Hepatitis B virus AAGGTGGGAAACTTTACTGGGCTTTAT genomic DNA,complete TCTTCTACTGTACCTGTCTTTAATCCTG sequence AGTGGCAAAC isolate probe_HBV_ TCCCTCCTTTCCTCACATTCATTTGCAG SEQ ID NO: 58 36Y18HCC″,″AB01439 012017_152 GAGGACATTATTAATAGATGTCAACAA 5.1 Hepatitis B virus TATGTGGGCCCTCTTACAGTTAATGAA genomic DNA,complete AAAAGGAGATTAAAATTAATTATGCCT sequence GCTAGGTTCTA isolate probe_HBV_ TCCTAACCTTACCAAATATTTGCCCTTG SEQ ID NO: 59 36Y18HCC″,″AB01439 012017_153 GACAAAGGCATTAAACCATATTATCCT 5.1 Hepatitis B virus GAACATGCAGTTCATCATTACTTCAAA genomic DNA,complete ACTAGGCATTATTTACATACTCTGTGG sequence AAGGCTGGCAT isolate probe_HBV_ TCTATATAAGAGAGAAACTACACGCA SEQ ID NO: 60 36Y18HCC″,″AB01439 012017_154 GCGCCTCATTTTGTGGGTCACCATATT 5.1 Hepatitis B virus CTTGGGAACAAGAGCTACAGCAAACC genomic DNA,complete TCGACAAGGCATGGGGACAAATCTTTC sequence TGTTCCCAATCCTC isolate probe_HBV_ TGGGATTCTTTCCCGATCACCAGTTGG SEQ ID NO: 61 36Y18HCC″,″AB01439 012017_155 ACCCTGCGTTCGGAGCCAACTCAAACA 5.1 Hepatitis B virus ATCCAGATTGGGACTTCAACCCCAACA genomic DNA,complete AGGATCACTGGCCAGAGGCAAATCAG sequence GTAGGAGCGGGAG isolate probe_HBV_ CTCCACCACATTCCACCAAGCTCTGCT SEQ ID NO: 62 22Y04HCC″,″AB01438 012017_156 ACACCCCAGAGTAAGGGGCCTATACTT 1.1 Hepatitis B virus TCCTGCTGGTGGCTCCAGTTCCGGAAC genomic DNA,complete AGTAAACCCTGTTCCGACTACTGCCTC sequence TCCCATATCGTC isolate probe_HBV_ AATCTTCTCGAGGACTGGGGACCCTGC SEQ ID NO: 63 22Y04HCC″,″AB01438 012017_157 ACCGAACATGGAGAACACAACATCAG 1.1 Hepatitis B virus GATTCCTAGGACCCCTGCTCGTGTTAC genomic DNA,complete AGGCGGGGTTTTTCTTGTTGACAAGAA sequence TCCTCACAATACC isolate probe_HBV_ ACAGAGTCTAGACTCGTGGTGGACTTC SEQ ID NO: 64 22Y04HCC″,″AB01438 012017_158 TCTCAATTTTCTAGGGGGAGCACCCAC 1.1 Hepatitis B virus GTGTCCTGGCCAAAATTCGCAGTCCCC genomic DNA,complete AACCTCCAATCACTCACCAACCTCTTG sequence TCCTCCAATTTG isolate probe_HBV_ TCCTGGCTATCGCTGGATGTGTCTGCG SEQ ID NO: 65 22Y04HCC″,″AB01438 012017_159 GCGTTTTATCATATTCCTCTTCATCCTG 1.1 Hepatitis B virus CTGCTATGCCTCATCTTCTTGTTGGTTC genomic DNA,complete TTCTGGACTACCAAGGTATGTTGCCCG sequence TTTGTCCTCT KR184660.1 Hepatitis B probe_HBV_ GCACCATGCAACTTTTTCACCTCTGCCT SEQ ID NO: 66 virus isolate SS_3_22, 012017_16 AATCATCTCATGTTCATGTCCTACTGTT complete genome CAAGCCTCCAAGCTGTGCCTTGGGTGG CTTTGGGGCATGGACATTGACCCGTAT AAAGAATTTG isolate probe_HBV_ ACTTCCAGGAACATCAACTACCAGCAC SEQ ID NO: 67 22Y04HCC″,″AB01438 012017_160 GGGACCATGCAAGACCTGCACGATTCC 1.1 Hepatitis B virus TGCTCAAGGCACCTCTATGTTTCCCTCT genomic DNA,complete TGTTGCTGTACAAAACCTTCGGACGGA sequence AACTGCACTTG isolate probe_HBV_ TATTCCCATCCCATCATCCTGGGCTTTC SEQ ID NO: 68 22Y04HCC″,″AB01438 012017_161 GCAAGATTCCTATGGGAGTGGGCCTCA 1.1 Hepatitis B virus GTCCGTTTCTCCTGGCTCAGTTTACTAG genomic DNA,complete TGCCATTTGTTCAGTGGTTCGTAGGGC sequence TTTCCCCCAC isolate probe_HBV_ TGTTTGGCTTTCAGTTATATGGATGAT SEQ ID NO: 69 22Y04HCC″,″AB01438 012017_162 GTGGTATTGGGGGCCAAGTCTGTACAA 1.1 Hepatitis B virus CATCTTGAGTCCCTTTTTACCGCTGTTA genomic DNA,complete CCAATTTTCTTTTGTCTTTGGGTATACA sequence TTTGAACCCT isolate probe_HBV_ AATAAAACCAAACGTTGGGGTTACTCC SEQ ID NO: 70 22Y04HCC″,″AB01438 012017_163 CTTAACTTCATGGGATATGTAATTGGA 1.1 Hepatitis B virus AGTTGGGGTACTTTACCGCAAGACCAT genomic DNA,complete ATTGTACTAAAAATCAAGCAATGTTTT sequence CGAAAACTGCCT isolate probe_HBV_ GTAAATAGACCTATTGATTGGAAAGTA SEQ ID NO: 71 22Y04HCC″,″AB01438 012017_164 TGTCAGAGAATTGTGGGTCTTTTGGGC 1.1 Hepatitis B virus TTTGCTGCCCCTTTTACACAATGTGGCT genomic DNA,complete ATCCTGCCTTAATGCCTTTATATGCATG sequence TATACAATCT isolate probe_HBV_ AAGCAGGCTTTCACTTTCTCGCCAACT SEQ ID NO: 72 22Y04HCC″,″AB01438 012017_165 TACAAGGCCTTTCTGTGTAAACAATAT 1.1 Hepatitis B virus CTGAACCTTTACCCCGTTGCCCGGCAA genomic DNA,complete CGGTCAGGTCTCTGCCAAGTGTTTGCT sequence GACGCAACCCCC isolate probe_HBV_ ACTGGATGGGGCTTGGCTATTGGCCAT SEQ ID NO: 73 22Y04HCC″,″AB01438 012017_166 CGCCGCATGCGTGGAACCTTTGTGGCT 1.1 Hepatitis B virus CCTCTGCCGATCCATACTGCGGAACTC genomic DNA,complete CTAGCAGCTTGTTTTGCTCGCAGCCGG sequence TCTGGAGCGAAA isolate probe_HBV_ CTGATCGGAACGGACAACTCTGTTGTT SEQ ID NO: 74 22Y04HCC″,″AB01438 012017_167 CTCTCTCGGAAATACACCTCCTTTCCAT 1.1 Hepatitis B virus GGCTGCTAGGGTGTGCTGCCAACTGGA genomic DNA,complete TCCTGCGCGGGACGTCCTTTGTTTACG sequence TCCCGTCGGCG isolate probe_HBV_ CTGAATCCCGCGGACGACCCATCTCGG SEQ ID NO: 75 22Y04HCC″,″AB01438 012017_168 GGCCGTTTGGGTCTCTACCGTCCCCTTC 1.1 Hepatitis B virus TTCATCTGCCGTTCCGGCCGACCACGG genomic DNA,complete GGCGCACCTCTCTTTACGCGGTCTCCC sequence CGTCTGTGCCT isolate probe_HBV_ TCTCATCTGCCGGACCGTGTGCACTTC SEQ ID NO: 76 22Y04HCC″,″AB01438 012017_169 GCTTCACCTCTGCACGTCGCATGGAGA 1.1 Hepatitis B virus CCACCGTGAACGCCCACCAGGTCTTGC genomic DNA, complete CCAAGGTCTTATATAAGAGGACTCTTG sequence GACTCTCAGCAA KR184660.1 Hepatitis B probe_HBV_ GAGCTTCTGTGGAGTTACTCTCTTTTTT SEQ ID NO: 77 virus isolate SS_3_22, 012017_17 GCCTTCTGACTTCTTTCCTTCCATTCGA complete genome GATCTCCTCGACACCGCCTCTGCTCTG TATCGGGAGGCCTTAGAGTCTCCGGAA CATTGTTCAC isolate probe_HBV_ TGTCAACGACCGACCTTGAGGCATACT SEQ ID NO: 78 22Y04HCC″,″AB01438 012017_170 TCAAAGACTGTTTGTTTAAGGACTGGG 1.1 Hepatitis B virus AGGAGTTGGGGGAGGAGATTAGGTTA genomic DNA, complete ATGATCTTTGTACTAGGAGGCTGTAGG sequence CATAAATTGGTCT isolate probe_HBV_ GTTCACCAGCACCATGCAACTTTTTCA SEQ ID NO: 79 22Y04HCC″,″AB01438 012017_171 CCTCTGCCTAATCATCTCATGTTCATGT 1.1 Hepatitis B virus CCTACTGTTCAAGCCTCCAAGCTGTGC genomic DNA, complete CTTGGGTGGCTTTAGGACATGGACATT sequence GACCCATATAA isolate probe_HBV_ AGAATTTGGAGCTTCTGTGGAGTTACT SEQ ID NO: 80 22Y04HCC″,″AB01438 012017_172 CTCTTTTTTGCCTTCTGACTTTTTTCCTT 1.1 Hepatitis B virus CTATTCGAGATCTCCTCGACACCGCCT genomic DNA, complete CTGCTCTGTATCGGGAGGCCTTAGAGT sequence CTCCGGAACA isolate probe_HBV_ TTGTTCACCTCACCATACAGCACTCAG SEQ ID NO: 81 22Y04HCC″,″AB01438 012017_173 ACAAGCCATTCTGTGTTGGGGTGAGTT 1.1 Hepatitis B virus GATGAATCTGGCCACCTGGGTGGGAA genomic DNA, complete GTAATTTGGAAGACCCAGCATCCAGGG sequence AATTAGTAGTCAG isolate probe_HBV_ CTATGTCAATGTTAATATGGGCCTAAA SEQ ID NO: 82 22Y04HCC″,″AB01438 012017_174 AATCAGACAACTACTGTGGTTTCACAT 1.1 Hepatitis B virus TTCCTGTCTTACTTTTGGAAGAGAAAC genomic DNA, complete TGTTCTTGAGTATTTGGTGTCTTTTGGA sequence GTGTGGATTCG isolate probe_HBV_ CACTCCTCCTGCTTACAGACCATCAAA SEQ ID NO: 83 22Y04HCC″,″AB01438 012017_175 TGCCCCTATCTTATCAACACTTCCGGA 1.1 Hepatitis B virus AACTACTGTTGTTAGACGACGAGGCAG genomic DNA,complete GTCCCCTAGAAGAAGAACTCCCTCGCC sequence TCGCAGACGAAG isolate probe_HBV_ GTCTCAATCGCCGCGTCGCAGAAGATC SEQ ID NO: 84 22Y04HCC″,″AB01438 012017_176 TCAATCTCGGGAACCTCAATGTTAGTA 1.1 Hepatitis B virus TCCCTTGGACTCATAAGGTGGGAAACT genomic DNA,complete TTACTGGGCTTTATTCTTCTACTGTACC sequence TGTCTTTAATC isolate probe_HBV_ CTGAGTGGCAAACTCCCTCTTTTCCTC SEQ ID NO: 85 22Y04HCC″,″AB01438 012017_177 ATATTCATTTGCAGGAGGACATTATTA 1.1 Hepatitis B virus ATAGATGTCAACAATATGTGGGCCCTC genomic DNA,complete TTACAGTTAATGAAAAAAGGAGATTA sequence AAATTAATTATGC isolate probe_HBV_ CTGCTAGGTTCTATCCTAACCTTACCA SEQ ID NO: 86 22Y04HCC″,″AB01438 012017_178 AATATTTGCCCTTGGACAAAGGCATTA 1.1 Hepatitis B virus AACCATATTATCCGGAACATGCAGTTA genomic DNA,complete ATCATTACTTCAAAACTAGGCATTATT sequence TACATACTCTGT KR184660.1 Hepatitis B probe_HBV_ CTCACCATACAGCACTCAGGCAAGCTA SEQ ID NO: 87 virus isolate SS_3_22, 012017_18 TTCTCTGTTGGGGTGAGTTGATGAATC complete genome TGGCCACCTGGGTGGGAAGTAATTTGG AAGACCCAGCATCCAGGGATTTAGTAG TCAGCTATGTCA isolate probe_HBV_ ATGGGGACAAATCTTTCTGTTCCCAAT SEQ ID NO: 88 22Y04HCC″,″AB01438 012017_180 CCTCTGGGATTCTTTCCCGATCACCAG 1.1 Hepatitis B virus TTGGACCCTGCGTTCGGAGCCAACTCA genomic DNA,complete AACAATCCAGATTGGGACTTCAACCCC sequence AACAAGGATCAC isolate probe_HBV_ TGGCCAGAGGCAAATCAGGTAGGAGC SEQ ID NO: 89 22Y04HCC″,″AB01438 012017_181 GGGAGCATTCGGGCCAGGGTTCACCCC 1.1 Hepatitis B virus ACCACACGGCGGTCTTTTGGGGTGGAG genomic DNA,complete CCCTCAGGCTCAGGGCACATTGACAAC sequence AGTGCCAGTAGCA DQ683578.1 Hepatitis B probe_HBV_ CTCCACAACATTCCACCAAGCTCTGCT SEQ ID NO: 90 virus from South Korea, 012017_182 AGATCCCAGAGTGAGGGGCCTATATTT complete genome TCCTGCTGGTGGCTCCAGTTCCGGAAC AGTAAACCCTGTTCCGACTACTGCCTC ACCCATATCGTC DQ683578.1 Hepatitis B probe_HBV_ AATCTTCTCGAGGACTGGGGACCCTGC SEQ ID NO: 91 virus from South Korea, 012017_183 ACCGAACATGGAGAGCACAACATCAG complete genome GATTCCTAGGACCCCTGCTCGTGTTAC AGGCGGGGTTTTTCTTGTTGACAAGAA TCCTCACAATACC DQ683578.1 Hepatitis B probe_HBV_ ACAGAGTCTAGACTCGTGGTGGACTTC SEQ ID NO: 92 virus from South Korea, 012017_184 TCTCAATTTTCTAGGGGGAGCACCCAC complete genome GTGTCCTGGCCAAAATTCGCAGTCCCC AACCTCCAATCACTCACCAACCTCTTG TCCTCCAATTTG DQ683578.1 Hepatitis B probe_HBV_ TCCTGGCTATCGCTGGATGTGTCTGCG SEQ ID NO: 93 virus from South Korea, 012017_185 GCGTTTTATCATATTCCTCTTCATCCTG complete genome CTGCTATGCCTCATCTTCTTGTTGGTTC TTCTGGACTACCAAGGTATGTTGCCCG TTTGTCCTCT DQ683578.1 Hepatitis B probe_HBV_ ACTTCCAGGAACATCAACTACCAGCAC SEQ ID NO: 94 virus from South Korea, 012017_186 GGGACCATGCAAGACCTGCACGATTCC complete genome TGCTCAAGGAACCTCTATGTTTCCCTCT TGTTGCTGTACAAAACCTTCGGACGGA AACTGCACTTG DQ683578.1 Hepatitis B probe_HBV_ TATTCCCATCCCATCATCCTGGGCTTTC SEQ ID NO: 95 virus from South Korea, 012017_187 GTAAAATTCCTATGGGAGTGGGCCTCA complete genome GTCCGTTTCTCCTGGCTCAGTTTACTAG TGCCATTTGTTCAGTGGTTCGCAGGGC TTTCCCCCAC DQ683578.1 Hepatitis B probe_HBV_ TGTTTGGCTTTCAGTTATATGGATGAT SEQ ID NO: 96 virus from South Korea, 012017_188 GTGGTATTGGGGGCCAAGTCTGTGCAA complete genome CATCTTGAGTCCCTTTTTACCTCTATTA CCAATTTTCTTTTGTCTTTGGGTATACA TTTGAACCCT DQ683578.1 Hepatitis B probe_HBV_ AATAAAACCAAACGTTGGGGCTACTCC SEQ ID NO: 97 virus from South Korea, 012017_189 CTTAACTTCATGGGATATGTAATTGGA complete genome AGTTGGGGTACTTTACCACAGGAACAT ATTGTATTAAAACTCAAGCAATGTTTT CGGAAATTGCCT KR184660.1 Hepatitis B probe_HBV_ ATGTTAATATGGGCCTAAAAATCAGAC SEQ ID NO: 98 virus isolate SS_3_22, 012017_19 AACTATTGTGGTTTCACATTTCCTGTCT complete genome TACTTTTGGAAGAGAAACTGTTCTTGA GTATTTGGTGTCTTTTGGAGTGTGGATT CGCACTCCTC DQ683578.1 Hepatitis B probe_HBV_ GTAAATAGACCTATTGATTGGAAAGTA SEQ ID NO: 99 virus from South Korea, 012017_190 TGTCAAAGAATTGTGGGTCTTTTGGAC complete genome TTTGCTGCCCCTTTTACACAATGTGGCT ATCCTGCATTGATGCCTTTATATGCAT GTATACAAGCT DQ683578.1 Hepatitis B probe_HBV_ AAGCAGGCTTTCACTTTCTCGCCAACT SEQ ID NO: 100 virus from South Korea, 012017_191 TACAAGGCCTTTCTGTGTCAACAATAC complete genome CTGCACCTTTACCCCGTTGCCCGGCAA CGGTCAGGTCTCTGCCAAGTGTTTGCT GACGCAACCCCC DQ683578.1 Hepatitis B probe_HBV_ ACTGGATGGGGCTTGGCCATAGGCCAT SEQ ID NO: 101 virus from South Korea, 012017_192 CGGCGCATGCGTGGAACCTTTGTGGCT complete genome CCTCTGCCGATCCATACTGCGGAACTC CTAGCGGCTTGTTTTGCTCGCAGCCGG TCTGGAGCAAAA DQ683578.1 Hepatitis B probe_HBV_ CTTATCGGGACCGACAACTCTGTTGTC SEQ ID NO: 102 virus from South Korea, 012017_193 CTCTCTCGGAAATACACCTCCTTCCCA complete genome TGGCTGCTCGGGTGTGCTGCCAACTGG ATCCTGCGCGGGACGTCCTTTGTCTAC GTCCCGTCGGCG DQ683578.1 Hepatitis B probe_HBV_ CTGAATCCCGCGGACGACCCGTCTCGG SEQ ID NO: 103 virus from South Korea, 012017_194 GGCCGTTTGGGCCTCTATCGTCCCCTTC complete genome TTCATCTGCCGTTCCAGCCGACCACGG GGCGCACCTCTCTTTACGCGGTCTCCC CGTCTGTGCCT DQ683578.1 Hepatitis B probe_HBV_ TCTCATCTGCCGGACCGTGTGCACTTC SEQ ID NO: 104 virus from South Korea, 012017_195 GCTTCACCTCTGCACGTCGCATGGAAA complete genome CCACCGTGAACGCCCATCAGGTCTTGC CCAAGCTCTTACATAAGAGGACTCTTG GACTCTCAGCAA DQ683578.1 Hepatitis B probe_HBV_ TGTCAACGACCGACCTTGAGGCTTACT SEQ ID NO: 105 virus from South Korea, 012017_196 TCAAAGACTGTTTGTTTAAAGACTGGG complete genome AGGAGTTGGGGGAGGAGACTAGGTTA AAGGTCTTTGTACTAGGAGGCTGTAGG CATAAATTGGTCT DQ683578.1 Hepatitis B probe_HBV_ GTTCACCAGCACCATGCAACTTTTTCA SEQ ID NO: 106 virus from South Korea, 012017_197 CCTCTGCCTAATCATCTCATGTTCATGT complete genome CCTACTGTTCAAGCCTCCAAGCTGTGC CTTGGGTGGCTTTGGGGCATGGACATT GACCCGTATAA DQ683578.1 Hepatitis B probe_HBV_ AGAATTTGGAGCTTCTGCGGAGTTACT SEQ ID NO: 107 virus from South Korea, 012017_198 CTCTTTTTTGCCTTCTGACTTCTTTCCTT complete genome CTATTCGAGATCTCCTCGACACCGCCT CTGCTCTATATCGGGAGGCCTTAGAGT CTCCGGAACA DQ683578.1 Hepatitis B probe_HBV_ TTGTTCACCTCACCATACAGCACTCAG SEQ ID NO: 108 virus from South Korea, 012017_199 GCAAGCTATTCTGTGTTGGGGTGAGTT complete genome GATGAATCTGGCCACCTGGGTGGGAA GTAATTTGGAAGACCCAGCATCCAGGG AATTAGTAGTCAG KR184660.1 Hepatitis B probe_HBV_ AATCTTCTCGAGGACTGGGGACCCTGC SEQ ID NO: 109 virus isolate SS_3_22, 012017_2 ACCGAACATGGAGAGCACAACATCAG complete genome GATTCCTAGGACCCCTGCTCGTGTTAC AGGCGGGGTTTTTCTTGTTGACAAGAA TCCTCACAATACC KR184660.1 Hepatitis B probe_HBV_ CCGCTTACAGACCACCAAATGCCCCTA SEQ ID NO: 110 virus isolate SS_3_22, 012017_20 TCTTATCAACACTTCCGGAAACTACTG complete genome TTGTTAGACGACGAGGCAGGTCCCCTA GAAGAAGAACTCCCTCGCCTCGCAGAC GAAGGTCTCAAT DQ683578.1 Hepatitis B probe_HBV_ CTATGTCAATGTTAATATGGGCCTAAA SEQ ID NO: 111 virus from South Korea, 012017_200 AATCAGACAACTATTGTGGTTTCACAT complete genome TTCCTGTCTTACTTTTGGAAGAGAAAC TGTTCTTGAGTATTTGGTGTCTTTTGGA GTGTGGATTCG DQ683578.1 Hepatitis B probe_HBV_ CACTCCTCCCGCTTACAGACCACCAAA SEQ ID NO: 112 virus from South Korea, 012017_201 TGCCCCTATCTTATCAACACTTCCGGA complete genome AACTACTGTTGTTAGACGACGAGGCAG GTCCCCTAGAAGAAGAACTCCCTCGCC TCGCAGACGAAG DQ683578.1 Hepatitis B probe_HBV_ GTCTCAATCGCCGCGTCGCAGAAGATC SEQ ID NO: 113 virus from South Korea, 012017_202 TCAATCTCGGGAATCTCAATGTTAGTA complete genome TCCCTTGGACTCATAAGGTGGGAAACT TTACTGGGCTTTATTCTTCTACTGTACC TGTCTCTAATC DQ683578.1 Hepatitis B probe_HBV_ CTGAGTGGCAAACTCCCTCCTTTCCTA SEQ ID NO: 114 virus from South Korea, 012017_203 ACATTCATTTACAGGAGGACGTTATTA complete genome ATAGATGTCAACAATATGTGGGCCCTC TTACAGTTAATGAAAAAAGGAGATTA AAATTAATTATGC DQ683578.1 Hepatitis B probe_HBV_ CTGCTAGGTTCTATCCTAACCTTACCA SEQ ID NO: 115 virus from South Korea, 012017_204 AATATTTGCCCTTGGATAAAGGCATTA complete genome AACCTTATTATCCTGAACATGCAGTTA ATCATTACTTCAAAACTAGGCATTATT TACATACTCTGT DQ683578.1 Hepatitis B probe_HBV_ GGAAGGCTGGCATTCTATATAAAAGA SEQ ID NO: 116 virus from South Korea, 012017_205 GAAACTACACGCAGCGCTTCATTTTGT complete genome GGGTCACCATATTCTTGGGAACAAGAG CTACAGCATGGGAGGTTGGTCTTCCAA ACCTCGACAAGGC DQ683578.1 Hepatitis B probe_HBV_ ATGGGGACGAATCTTTCTGTTCCCAAT SEQ ID NO: 117 virus from South Korea, 012017_206 CCTCTGGGATTCTTTCCCGATCACCAG complete genome TTGGACCCTGCGTTCAGAGCCAACTCA AACAATCCAGATTGGGACTTCAACCCC AACAAGGATCAC DQ683578.1 Hepatitis B probe_HBV_ TGGCCAGAGGCAAATCAGGTAGGAGC SEQ ID NO: 118 virus from South Korea, 012017_207 GGGAGCATTCGGGCCAGGGTTCACCCC complete genome ACCACACGGCGGTCTTTTGGGGTGGAG CCCTCAGGCTCAGGGCATATTGACAAC TGTGCCAGCAGCG KR184660.1 Hepatitis B probe_HBV_ CATATTGACAACAGTGCCAGCAGCGCC SEQ ID NO: 119 virus isolate SS_3_22, 012017_208 TCCTCCTGCCTCCACCAATCGGCAGTC complete genome AGGAAGACAGCCTACTCCCATCTCTCC ACCTCTAAGAGACAGTCATCCTCAGGC CATGCAGTGGAA JN315779.1 Hepatitis B probe_HBV_ CATATTGACAACAGTGCCCGCAGCGCC SEQ ID NO: 120 virus genotype C2, 012017_209 TCCTCCTGCCTCCACCAATCGGCAGTT complete genome AGGAAGACAGCCTACTCCCATCTCTCC ACCTCTAAGAGACAGTCATCCTCAGGC CATGCAGTGGAA KR184660.1 Hepatitis B probe_HBV_ CGCCGCGTCGCAGAAGATCTCAATCTC SEQ ID NO: 121 virus isolate SS_3_22, 012017_21 GGGAATCTCAATGTTAGTATCCCTTGG complete genome ACTCATAAGGTGGGAAACTTTACTGGG CTTTATTCTTCTACTGTACCTGTCTTTA ATCCTGAGTGG GQ872211.1 Hepatitis B probe_HBV_ CATATTGACAACAGTGCCAGCAGCGCC SEQ ID NO: 122 virus, complete genome 012017_210 TCCTCCTGCCTCCACCAATCGGCAGTC AGGAAGACAGCCTACTCCCATCTCTCC ACCTCTAAGAGACAGTCATCCTCAGGC CATGCAGTGGAA D23680.1 Hepatitis B probe_HBV_ CATATTGACAACCGTGCCAGTAGCACC SEQ ID NO: 123 virus (B4-HBVST1) 012017_211 TCCTCCTGCCTCCACCAATCGGCAGTC complete genome AGGAAGACAGCCTACTCCCATCTCTCC sequence ACCTCTAAGAGACAGTCATCCTCAGGC CATGCAGTGGAA AY641559.1 Hepatitis B probe_HBV_ CATAGTGACACCAGTGCCAGCAGCGCC SEQ ID NO: 124 virus isolate He53, 012017_212 TCCTCCTGCCTCCACCAATCGGCAGTC complete genome AGGAAGACAGCCTACTCCCATCTCTCC ACCTCTAAGAGACAGTCATCCTCAGGC CATGCAGTGGAA isolate probe_HBV_ GCATTCGGGCCAGGGTTCACCCCACCA SEQ ID NO: 125 36Y18HCC″,″AB01439 012017_213 CACGGCGGTCTTTTGGGGTGGAGCCCT 5.1 Hepatitis B virus CAGGCTCAGGGTGCATTGACAACAGTG genomic DNA, complete CCAGTAGCACCTCCTCCTGCCTCCACC sequence AATCGGCAGCCT isolate probe_HBV_ CACATTGACAACAGTGCCAGTAGCACC SEQ ID NO: 126 22Y04HCC″,″AB01438 012017_214 TCCTCCTGCCTCCACCAATCGGCAGTC 1.1 Hepatitis B virus AGGAAGACAGCCTACTCCCATCTCTCC genomic DNA, complete ACCTCTAAGAGACAGTCATCCTCAGGC sequence CATGCAGTGGAA DQ683578.1 Hepatitis B probe_HBV_ CATATTGACAACTGTGCCAGCAGCGCC SEQ ID NO: 127 virus from South Korea, 012017_215 TCCTCCTGCCTCCACCAATCGGCAGTC complete genome AGAAAGACAGCCTACTCCCATCTCTCC ACCTCTAAGAGACAGTCATCCTCAGGC CATGCAGTGGAA KR184660.1 Hepatitis B probe_HBV_ CAAACTCCCTCCTTTCCTAACATTCATT SEQ ID NO: 128 virus isolate SS_3_22, 012017_22 TACAGGAAGACATTATTAATAGATGTC complete genome AACAATATGTGGGCCCTCTTACAGTTA ATGAAAAAAGGAGATTAAAATTAATT ATGCCTGCTAGG KR184660.1 Hepatitis B probe_HBV_ TTCTATCCTAACCTTACCAAATATTTGC SEQ ID NO: 129 virus isolate SS_3_22, 012017_23 CCTTGGATAAAGGCATTAAACCTTATT complete genome ATCCTGAACATGCAGTTAATCATTACT TCAAAACTAGGCATTATTTACATACTC TGTGGAAGGCT KR184660.1 Hepatitis B probe_HBV_ GGCATTCTATATAAAAGAGAAACTACA SEQ ID NO: 130 virus isolate SS_3_22, 012017_24 CGCAGCGCTTCATTTTGTGGGTCACCA complete genome TATTCTTGGGAACAAGAGCTACAGCAT GGGAGGTTGGTCTTCCAAACCTCGACA AGGCATGGGGAC KR184660.1 Hepatitis B probe_HBV_ GAATCTTTCTGTTCCCAATCCTCTGGG SEQ ID NO: 131 virus isolate SS_3_22, 012017_25 ATTCTTTCCCGATCACCAGTTGGACCC complete genome TGCGTTCGGAGCCAACTCAAACAATCC AGATTGGGACTTCAACCCCAACAAGG ATCACTGGCCAGA KR184660.1 Hepatitis B probe_HBV_ GGCAAATCAGGTAGGAGCGGGAGCAT SEQ ID NO: 132 virus isolate SS_3_22, 012017_26 TCGGGCCAGGGTTCACCCCACCACACG complete genome GCGGTCTTTTGGGGTGGAGCCCTCAGG CTCAGGGCATATTGACAACAGTGCCAG CAGCGCCTCCTCC JN315779.1 Hepatitis B probe_HBV_ CTCCACAACATTCCACCAAGCTCTGCT SEQ ID NO: 133 virus genotype C2, 012017_27 AGATCCCAGAGTGAGGGGCCTATATTT complete genome TCCTGCTGGTGGCTCCAGTTCCGGAAC AGTAAACCCTGTTCCGACTACTGCCTC ACCCATATCGTC JN315779.1 Hepatitis B probe_HBV_ AATCTTCTCGAGGACTGGGGACCCTGC SEQ ID NO: 134 virus genotype C2, 012017_28 ACCGAACATGGAGAACACAACATCAG complete genome GATTCCTAGGACCCCTGCTCGTGTTAC AGGCGGGGTTTTTCTTGTTGACAAGAA TCCTCACAATACC JN315779.1 Hepatitis B probe_HBV_ ACAGAGTCTAGACTCGTGGTGGACTTC SEQ ID NO: 135 virus genotype C2, 012017_29 TCTCAATTTTCTAGGGGAAGCACCCAC complete genome GTGTCCTGGCCAAAATTCGCAGTCCCC AACCTCCAATCACTCACCAACCTCTTG TCCTCCAATTTG KR184660.1 Hepatitis B probe_HBV_ ACAGAGTCTAGACTCGTGGTGGACTTC SEQ ID NO: 136 virus isolate SS_3_22, 012017_3 TCTCAATTTTCTAGGGGGAGCACCCAC complete genome GTGTCCTGGCCAAAATTCGCAGTCCCC AACCTCCAATCACTCACCAACCTCTTG TCCTCCAATTTG JN315779.1 Hepatitis B probe_HBV_ TCCTGGCTATCGCTGGATGTGTCTGCG SEQ ID NO: 137 virus genotype C2, 012017_30 GCGTTTTATCATATTCCTCTTCATCCTG complete genome CTGCTATGCCTCATCTTCTTGTTGGTTC TTCTGGACTACCAAGGTATGTTGCCCG TTTGTCCTCT JN315779.1 Hepatitis B probe_HBV_ ACTTCCAGGAACATCAACTACCAGCAC SEQ ID NO: 138 virus genotype C2, 012017_31 GGGACCATGCAAGACCTGCACGATTCC complete genome TGCTCAAGGAACCTCTATGTTTCCCTCT TGTTGCTGTACAAAACCTTCGGACGGA AACTGCACTTG JN315779.1 Hepatitis B probe_HBV_ TATTCCCATCCCATCATCCTGGGCTTTC SEQ ID NO: 139 virus genotype C2, 012017_32 GCAAAATTCCTATGGGAGTGGGCCTCA complete genome GTCCGTTTCTCCTGGCTCAGTTTACTAG TGCCATTTGTTCAGTGGTTCGCAGGGC TTTCCCCCAC JN315779.1 Hepatitis B probe_HBV_ TGTTTGGCTTTCAGTTATATGGATGAT SEQ ID NO: 140 virus genotype C2, 012017_33 GTGGTATTGGGGGCCAAGTCTGTACAA complete genome CATCTTGAGTCCCTTTTTACCTCTATTA CCAATTTTCTTTTGTCTTTGGGTATACA TTTGAACCCT JN315779.1 Hepatitis B probe_HBV_ AATAAAACCAAACGTTGGGGCTACTCC SEQ ID NO: 141 virus genotype C2, 012017_34 CTTAACTTCATGGGATATGTAATTGGA complete genome AGTTGGGGTACTTTACCACAGGAACAT ATTGTACTAAAAATCAAGCAATGTTTT CGGAAACTGCCT JN315779.1 Hepatitis B probe_HBV_ GTAAATAGACCTATTGATTGGAAAGTA SEQ ID NO: 142 virus genotype C2, 012017_35 TGTCAAAGAATTGTGGGTCTTTTGGGC complete genome TTTGCTGCCCCTTTTACACAATGTGGCT ATCCTGCCTTGATGCCTTTATATGCATG TATACAATCT JN315779.1 Hepatitis B probe_HBV_ AAGCAGGCTTTCACTTTCTCGCCAACT SEQ ID NO: 143 virus genotype C2, 012017_36 TACAAGGCCTTTCTGTGTAAACAATAT complete genome CTGCACCTTTACCCCGTTGCCCGGCAA CGGTCAGGTCTCTGCCAAGTGTTTGCT GACGCAACCCCC JN315779.1 Hepatitis B probe_HBV_ CTTATCGGGACTGACAACTCTGTTGTC SEQ ID NO: 144 virus genotype C2, 012017_38 CTCTCTCAGAAATACACCTCCTTCCCA complete genome TGGCTGCTCGGGTGTGCTGCCAACTGG ATCCTGCGCGGGACGTCCTTTGTCTAC GTCCCGTCGGCG KR184660.1 Hepatitis B probe_HBV_ TCCTGGCTATCGCTGGATGTGTCTGCG SEQ ID NO: 145 virus isolate SS_3_22, 012017_4 GCGTTTTATCATATTCCTCTTCATCCTG complete genome CTGCTATGCCTCATCTTCTTGTTGGTTC TTCTGGACTACCAAGGTATGTTGCCCG TTTGTCCTCT JN315779.1 Hepatitis B probe_HBV_ TCTCATCTGCCGGTCCGTGTGCACTTC SEQ ID NO: 146 virus genotype C2, 012017_40 GCTTCACCTCTGCACGTCGCATGGAGA complete genome CCACCGTGAACGCCCACCAGGTCTTGC CCAAGGTCTTACATAAGAGGACTCTTG GACTCTCAGCAA JN315779.1 Hepatitis B probe_HBV_ TGTCAACAACCGACCTTGAGGCATACT SEQ ID NO: 147 virus genotype C2, 012017_41 TCAAAGACTGTTTGTTTAAAGACTGGG complete genome AGGAGTTGGGGGAGGAGATTAGGTTA AAGGTCTTTGTACTAGGAGGCTGTAGG CATAAATTGGTCT JN315779.1 Hepatitis B probe_HBV_ GTTCACCAGCACCATGCAACTTTTTCA SEQ ID NO: 148 virus genotype C2, 012017_42 CCTCTGCCTAATCATCTCATGTTCATGT complete genome CCTACTGTTCAAGCCTCCAAGCTGTGC CTTGGGTGGCTTTGGGGCATGGACATT GACCCGTATAA JN315779.1 Hepatitis B probe_HBV_ AGAATTTGGAGCTTCTGTGGAGTTACT SEQ ID NO: 149 virus genotype C2, 012017_43 CTCTTTTTTGCCTTCTGACTTCTTTCCTT complete genome CTATTCGAGATCTCCTCGACACCGCCT CTGCTCTGTATCGGGAGGCCTTAGAGT CTCCGGAACA JN315779.1 Hepatitis B probe_HBV_ TTGTTCACCTCACCATACAGCACTCAG SEQ ID NO: 150 virus genotype C2, 012017_44 GCAAGCTATTCTGTGTTGGGGTGAGTT complete genome ATTGAATCTGGCCACCTGGGTGGGAAG TAATTTGGAAGACCCAGCATCCAGGGA ATTAGTAGTCAG JN315779.1 Hepatitis B probe_HBV_ CTATGTCAATGTTAATATGGGCCTAAA SEQ ID NO: 151 virus genotype C2, 012017_45 AATCAGACAACTATTGTGGTTTCACAT complete genome TTCCTGTCTTACTTTTGGAAGAGAAAC TGTTCTTGAGTATTTGGTGTCTTTTGGA GTGTGGATTCG JN315779.1 Hepatitis B probe_HBV_ GTCTCAATCGCCGCGTCGCCGAAGATC SEQ ID NO: 152 virus genotype C2, 012017_47 TCAATCTCGGGAATCTCAATGTTAGTA complete genome TCCCTTGGACTCATAAGGTGGGAAACT TTACTGGGCTTTATTCTTCTACTGTACC TGTCTTTAATC JN315779.1 Hepatitis B probe_HBV_ CTGAGTGGCAAACTCCCTCCTTTCCTA SEQ ID NO: 153 virus genotype C2, 012017_48 ACATTCATTTACAGGAGGACATTATTA complete genome ATAGATGTCAACAATATGTGGGCCCTC TCACAGTTAATGAAAAAAGGAGATTA AAATTAATTATGC KR184660.1 Hepatitis B probe_HBV_ ACTTCCAGGAACATCAACTACCAGCAC SEQ ID NO: 154 virus isolate SS_3_22, 012017_5 GGGACCATGCAAGACCTGCACGATTCC complete genome TGCTCAAGGAACCTCTATGTTTCCCTCT TGTTGCTGTACAAAACCTTCGGACGGA AACTGCACTTG JN315779.1 Hepatitis B probe_HBV_ ATGGGGACGAATCTTTCTGTTCCCAAT SEQ ID NO: 155 virus genotype C2, 012017_51 CCTCTGGGATTCTTTCCCGATCACCAG complete genome TTGGACCCTGCGTTCGGAGCCAACTCA AACAATCCAGATTGGGACTTCAACCCC AACAAGGATCAC JN315779.1 Hepatitis B probe_HBV_ TGGCCAGAGGCAAATCAGGTAGGAGC SEQ ID NO: 156 virus genotype C2, 012017_52 GGGAGCATTCGGGCCAGGGTTCACCCC complete genome ACCACACGGCGGTCTTTTGGGGTGGAG CCCTCAGGCTCAGGGCATATTGACAAC AGTGCCCGCAGCG GQ872211.1 Hepatitis B probe_HBV_ CTCCACAACATTCCACCAAGCTCTGCT SEQ ID NO: 157 virus, complete genome 012017_53 AGATCCCAGAGTGAGGGGCCTATATTT TCCTGCTGGTGGCTCCAGTTCCGGAAC AGTAAACCCTGTTCCGACTACTGCCTC ACCCATATCGTC GQ872211.1 Hepatitis B probe_HBV_ AATCTTCTCGAGGACTGGGGACCCTGC SEQ ID NO: 158 virus, complete genome 012017_54 ACCGAACATGGAGAGCACAACATCAG GATTCCTAGGACCCCTGCTCGTGTTAC AGGCGGGGTTTTTCTTGTTGACAAGAA TCCTCACAATACC GQ872211.1 Hepatitis B probe_HBV_ ACAGAGTCTAGACTCGTGGTGGACTTC SEQ ID NO: 159 virus, complete genome 012017_55 TCTCAATTTTCTAGGGGGAGCACCCAC GTGTCCTGGCCAAAATTCGCAGTCCCC AACCTCCAATCACTCACCAACCTCTTG TCCTCCAATTTG GQ872211.1 Hepatitis B probe_HBV_ TCCTGGCTATCGCTGGATGTGTCTGCG SEQ ID NO: 160 virus, complete genome 012017_56 GCGTTTTATCATATTCCTCTTCATCCTG CTGCTATGCCTCACCTTCTTGTTGGTCC TTCTGGACTACCAAGGTATGTTGCCCG TTTGTCCTCT GQ872211.1 Hepatitis B probe_HBV_ ACTTCCAGGAACATCAACTACCAGCAC SEQ ID NO: 161 virus, complete genome 012017_57 GGGACCATGCAAGACCTGCACGACTCC TGCTCAAGGAACCTCTATGTTTCCCTCT TGTTGCTGTACAAAACCTTCGGACGGA AACTGCACTTG GQ872211.1 Hepatitis B probe_HBV_ TATTCCCATCCCATCATCCTGGGCTTTC SEQ ID NO: 162 virus, complete genome 012017_58 GCAAGATTCCTATGGGAGTGGGCCTCA GTCCGTTTCTCCTGGCTCAGTTTACTAG TGCCATTTGTTCAGTGGTTCGCAGGGC TTTCCCCCAC GQ872211.1 Hepatitis B probe_HBV_ TGTTTGGCTTTCAGTTATATGGATGAT SEQ ID NO: 163 virus, complete genome 012017_59 GGGGTATTGGGGGCCAAGTCTGTACAA CATCTTGAGTCCCTTTTTACCTCTATTA CCAATTTTCTTTTGTCTTTGGGTATACA TTTGAACCCT KR184660.1 Hepatitis B probe_HBV_ TATTCCCATCCCATCATCCTGGGCTTTC SEQ ID NO: 164 virus isolate SS_3_22, 012017_6 GCAAGATTCCTATGGGAGTGGGCCTCA complete genome GTCCGTTTCTCCTGGCTCAGTTTACTAG TGCCATTTGTTCAGTGGTTCGTAGGGC TTTCCCCCAC GQ872211.1 Hepatitis B probe_HBV_ AATAAAACCAAACGTTGGGGCTACTCC SEQ ID NO: 165 virus, complete genome 012017_60 CTTAACTTCATGGGATATGTAATTGGA AGTTGGGGTACTTTACCACAGGAACAT ATTGTATTAAAAATCAAGAAATGTTTT CGGAAACTGCCT GQ872211.1 Hepatitis B probe_HBV_ GTAAATAGACCTATTGATTGGAAAGTA SEQ ID NO: 166 virus, complete genome 012017_61 TGTCAAAGAATTGTGGGTCTTTTGGGC TTTGCTGCCCCTTTTACACAATGTGGCT ATCCTGCCTTAATGCCTTTATATGCATG TATACAATCT GQ872211.1 Hepatitis B probe_HBV_ AAGCAGGCTTTCACTTTCTCGCCCACT SEQ ID NO: 167 virus, complete genome 012017_62 TACAAGGCCTTTCTGTGTCAACAATAC CTGCACCTTTACCCCGTTGCCCGGCAA CGGTCAGGTCTCTGCCAAGTGTTTGCT GACGCAACCCCC GQ872211.1 Hepatitis B probe_HBV_ ACTGGATGGGGCTTGGCCATAGGCCAT SEQ ID NO: 168 virus, complete genome 012017_63 CGGCGCATGCGTGGAACCTTTGTGGCT CCTCTGCCGATCCATACTGCGGAACTC CTAGCAGCTTGTTTTGCTCGCAGCCGG TCTGGAGCAAAA GQ872211.1 Hepatitis B probe_HBV_ CTTATCGGGACTGACAACTCTGTTGTC SEQ ID NO: 169 virus, complete genome 012017_64 CTCTCTCGGAAATACACCTCCTTCCCA TGGCTGCTCGGATGTGCTGCCAACTGG ATCCTGCGCGGGACGTCCTTTGTCTAC GTCCCGTCGGCG GQ872211.1 Hepatitis B probe_HBV_ CTGAATCCCGCGGACGACCCGTCTCGG SEQ ID NO: 170 virus, complete genome 012017_65 GGCCGTTTGGGCCTCTACCGTCCCCTT CTTCATCTGCCGTTCCAGCCGACCACG GGGCGCACCTCTCTTTACGCGGTCTCC CCGTCTGTGCCT GQ872211.1 Hepatitis B probe_HBV_ TCTCATCTGCCGGTCCGTGTGCACTTC SEQ ID NO: 171 virus, complete genome 012017_66 GCTTCACCTCTGCACGTCGCATGGAAA CCACCGTGAACGCCCACCAGGTCTTGC CCAAGGTCTTATATAAGAGGACTCTTG GACTCTCAGCAA GQ872211.1 Hepatitis B probe_HBV_ TGTCAACGACCGACCTTGAGGCATACT SEQ ID NO: 172 virus, complete genome 012017_67 TCAAAGACTGTTTGTTTAAAGACTGGG AGGAGTTGGGGGAGGAGATTAGGTTA ATGATCTTTGTACTAGGAGGCTGTAGG CATAAATTGGTCT GQ872211.1 Hepatitis B probe_HBV_ GTTCACCAGCACCATGCAACTTTTTCA SEQ ID NO: 173 virus, complete genome 012017_68 CCTCTGCCTAATCATCTCATGTTCATGT CCTACTGTTCAAGCCTCCAAGCTGTGC CTTGGGTGGCTTTGGGGCATGGACATT GACCCGTATAA GQ872211.1 Hepatitis B probe_HBV_ AGAATTTGGAGCTTCTGCGGAGTTACT SEQ ID NO: 174 virus, complete genome 012017_69 CTCTTTTTTGCCTTCTGACTTCTTTCCG TCTATTCGAGATCTCCTCGACACCGCC TCTGCTCTGTATAGGGAGGCCTTAGAG TCTCCGGAACA KR184660.1 Hepatitis B probe_HBV_ TGTTTGGCTTTCAGTTATATGGATGAT SEQ ID NO: 175 virus isolate SS_3_22, 012017_7 GTGGTATTGGGGGCCAAGTCTGTACAA complete genome CATCTTGAGTCCCTTTTTACCTCTATTA CCAATTTTCTTGTGTCTTTGGGTATACA TTTGAACCCT GQ872211.1 Hepatitis B probe_HBV_ TTGTTCACCTCACCATACAGCACTCAG SEQ ID NO: 176 virus, complete genome 012017_70 GCAAGCTATTCTGTGTTGGGGTGAGTT GATGAATCTGGCCACCTGGGTGGGAA GTAATTTGGAAGACCCAGCATCCAGGG AATTAGTAGTCGG GQ872211.1 Hepatitis B probe_HBV_ CTATGTCAATGTTAATATGGGCCTAAA SEQ ID NO: 177 virus, complete genome 012017_71 ACTCAGACAACTATTGTGGTTTCACAT TTCCTGTCTTACTTTTGGAAGAGAAAC TGTTCTTGAGTATTTGGTGTCTTTTGGA GTGTGGATTCG GQ872211.1 Hepatitis B probe_HBV_ CACTCCTACCGCTTACAGACCACCAAA SEQ ID NO: 178 virus, complete genome 012017_72 TGCCCCTATCTTATCAACACTTCCGGA AACTACTGTTGTTAGACGACGAGGCAG GTCCCCTAGAAGAAGAACTCCCTCGCC TCGCAGACGAAG GQ872211.1 Hepatitis B probe_HBV_ GTCTCAATCGCCGCGTCGCAGAAGATC SEQ ID NO: 179 virus, complete genome 012017_73 TCAATCTCGGGAATCTCAATGTTAGTA TCCCTTGGACTCATAAGGTGGGAAACT TTACTGGGCTTTATTCTTCTACTGTACC TGTCTTTAATC GQ872211.1 Hepatitis B probe_HBV_ CTGAGTGGCAAACTCCCTCCTTTCCTA SEQ ID NO: 180 virus, complete genome 012017_74 ACATTCATTTACAGGAGGACATTATTA ATAGATGTCAACAATATGTGGGCCCTC TTACAGTTAATGAAAAAAGGAGATTA AAATTAATTATGC GQ872211.1 Hepatitis B probe_HBV_ CTGCTAGGTTCTATCCTAACCTTACCA SEQ ID NO: 181 virus, complete genome 012017_75 AATATTTGCCCTTGGATAAGGGCATTA AACCTTATTATCCTGAACATGCAGTTA ATCATTACTTCAAAACTAGGCATTATT TACATACTCTGT GQ872211.1 Hepatitis B probe_HBV_ GGAAGGCTGGCATTCTATATAAAAGA SEQ ID NO: 182 virus, complete genome 012017_76 GAAACTACACGCAGCGCTTCATTTTGT GGGTCACCATATTCTTGGGAACAAGAG CTACAGCATGGGAGGTTGGTCTTCCAA ACCTCGAAAAGGC GQ872211.1 Hepatitis B probe_HBV_ ATGGGGACGAATCTTTCTGTTCCCAAT SEQ ID NO: 183 virus, complete genome 012017_77 CCTCTGGGATTCTTTCCCGATCACCAG TTGGACCCTGCATTCGGAGCCAACTCA AACAATCCAGATTGGGACTTCAACCCC AACAAGGATCAC GQ872211.1 Hepatitis B probe_HBV_ TGGCCAGAGGCAACTCAGGTAGGAGC SEQ ID NO: 184 virus, complete genome 012017_78 GGGAGCATTCGGGCCAGGGTTCACCCC ACCACACGGCGGTCTTTTGGGGTGGAG CCCTCAGGCTCAGGGCATATTGACAAC AGTGCCAGCAGCG D23680.1 Hepatitis B probe_HBV_ CTCCACAACATTCCACCAAGCTCTGCT SEQ ID NO: 185 virus (B4-HBVST1) 012017_79 AGACCCCAGAGTGAGGGGCCTATACTT complete genome TCCTGCTGGTGGCTCCAGTTCCGGAAC sequence AGTAAACCCTGTTCCGACTACTGCCTC ACCCATATCGTC KR184660.1 Hepatitis B probe_HBV_ AATAAAACCAAACGTTGGGGCTACTCC SEQ ID NO: 186 virus isolate SS_3_22, 012017_8 CTTAACTTCATGGGATATGTAATTGGA complete genome AGTTGGGGTACTTTACCACAGGAACAT ATTGTACAAAAACTCAAGCAATGTTTT CGGAAACTGCCT D23680.1 Hepatitis B probe_HBV_ AATCTTCTCGAGGACTGGGGACCCTGC SEQ ID NO: 187 virus (B4-HBVST1) 012017_80 ACCGAACATGGAGAACACAACATCAG complete genome GATTCCTAGGACCCCTGCTCGTGTTAC sequence AGGCGGGGTTTTTCTTGTTGACAAGAA TCCTCACAATACC D23680.1 Hepatitis B probe_HBV_ ACAGAGTCTAGACTCGTGGTGGACTTC SEQ ID NO: 188 virus (B4-HBVST1) 012017_81 TCTCAATTTTCTAGGGGGAGCACCCAC complete genome GTGTCCTGGCCAAAATTCGCAGTCCCC sequence AACCTCCAATCACTCACCAACCTCTTG TCCTCCAATTTG D23680.1 Hepatitis B probe_HBV_ ACCTGGCTATCGCTGGATGTGTCTGCG SEQ ID NO: 189 virus (B4-HBVST1) 012017_82 GCGTTTTATCATATTCCTCTTCATCCTG complete genome CTGCTATGCCTCATCTTCTTGTTGGTTC sequence TTCTGGACTACCAAGGTATGTTGCCCG TTTGTCCTCT D23680.1 Hepatitis B probe_HBV_ ACTTCCAGGAACATCAACTACCAGCAC SEQ ID NO: 190 virus (B4-HBVST1) 012017_83 AGGACCATGCAAGACCTGCACGATTCC complete genome TGCTCAAGGAACCTCTATGTTTCCCTCT sequence TGTTGCTGTACAAAACCTTCGGACGGA AACTGCACTTG D23680.1 Hepatitis B probe_HBV_ TATTCCCATCCCATCATCCTGGGCTTTC SEQ ID NO: 191 virus (B4-HBVST1) 012017_84 GCAAGATTCCTATGGGAGTGGGCCTCA complete genome GTCCGTTTCTCCTGGCTCAGTTTACTAG sequence TGCCATTTGTTCAGTGGTTCGTAGGGC TTTCCCCCAC D23680.1 Hepatitis B probe_HBV_ TGTTTGGCTTTCAGTTATATGGATGAT SEQ ID NO: 192 virus (B4-HBVST1) 012017_85 GTGGTATTGGGGGCCAAGTCTGTACAA complete genome CATCTTGAGTCCCTTTTTACCTCTATTA sequence CCCATTTTCTTTTATCTTTGGGTATACA TTTGAACCCC D23680.1 Hepatitis B probe_HBV_ AATAAAACCAAACGTTGGGGCTACTCC SEQ ID NO: 193 virus (B4-HBVST1) 012017_86 CTTAACTTCATGGGATATGTAATTGGA complete genome TGTTGGGGTACTTTACCGCAAGAACAT sequence ATTGTACTAAAAATCAAGCAATGTTTT CGAAAACTGCCT D23680.1 Hepatitis B probe_HBV_ GTAAATAGACCTATTGATTGGAAAGTA SEQ ID NO: 194 virus (B4-HBVST1) 012017_87 TGTCAGAGAATTGTGGGTCTTTTGGGC complete genome TTTGCTGCCCCTTTTACACAATGTGGCT sequence ATCCTGCCTTAAAGCCTTTATATGCAT GTATACAAGCT D23680.1 Hepatitis B probe_HBV_ AAGCAGGCTTTCACTTTCTCGCCGACT SEQ ID NO: 195 virus (B4-HBVST1) 012017_88 TACAAGGCCTTTCTGTGTAAACAATAT complete genome CTGAACCTTTACCCCGTTGCCCGGCAA sequence CGGTCAGGTCTCTGCCAAGTGTTTGCT GACGCAACCCCC D23680.1 Hepatitis B probe_HBV_ ACTGGCTGGGGCTTGGCTATCGGCCAT SEQ ID NO: 196 virus (B4-HBVST1) 012017_89 CGCCGCATGCGTGGAACCTTTGTGGCT complete genome CCTCTGCCGATCCATACTGCGGAACTC sequence CTAGCAGCTTGTTTTGCTCGCAGCCGG TCTGGAGCGAAA KR184660.1 Hepatitis B probeHBV_ GTAAATAGACCTATTGACTGGAAAGTA SEQ ID NO: 197 virus isolate SS_3_22, 012017_9 TGTCAAAGAATTGTGGGTCTTTTGGGC complete genome TTTGCTGCCCCTTTTACACAATGTGGCT ATCCTGCCTTGATGCCTTTATATGCATG TATACAAGCT D23680.1 Hepatitis B probe_HBV_ CTTATCGGCACCGACAACTCTGTTGTC SEQ ID NO: 198 virus (B4-HBVST1) 012017_90 CTCTCTCGGAAATACACCTCATTTCCA complete genome TGGCTGCTAGGGTGTGCTGCCAACTGG sequence ATCCTGCGCGGGACGTCCTTTGTCTAC GTCCCGTCGGCG D23680.1 Hepatitis B probe_HBV_ CTGAATCCCGCGGACGACCCGTCTCGG SEQ ID NO: 199 virus (B4-HBVST1) 012017_91 GGCCGTTTGGGACTCTACCGTCCCCTT complete genome CTTCATCTGCCGTTCCGGCCAACCACG sequence GGGCGCACCTCTCTTTACGCGGTCTCC CCGTCTGTGCCT D23680.1 Hepatitis B probe_HBV_ TCTCATCTGCCGGGCCGTGTGCACTTC SEQ ID NO: 200 virus (B4-HBVST1) 012017_92 GCTTCACCTCTGCACGTCGCATGGAAA complete genome CCTCCGTGAACGCCCACCAGGTCTTGC sequence CCAAGGTCTTATATAAGAGGACTCTTG GACTCTCAGCGA D23680.1 Hepatitis B probe_HBV_ TGTCAACGACCGACCTTGAGGCATACT SEQ ID NO: 201 virus (B4-HBVST1) 012017_93 TCAAAGACTGTTTGTTTAAGGACTGGG complete genome AGGAGTTGGGGGAGGTACTAGGAGGC sequence TGTAGGCATAAATTGGTCTGTTCACCA GCACCATGCAACT D23680.1 Hepatitis B probe_HBV_ TTTTCACCTCTGCCTAATCATCTCATGT SEQ ID NO: 202 virus (B4-HBVST1) 012017_94 TCATGTCCTACTGTTCAAGCCTCCAAG complete genome CTGTGCCTTGGGTGGCTTTGGGGCATG sequence GACATTGACCCGTATAAAGAATTTGGA GCTTCTGTGGA D23680.1 Hepatitis B probe_HBV_ GTTACTCTCTTTTTTGCCTTCTGACTTC SEQ ID NO: 203 virus (B4-HBVST1) 012017_95 TTTCCTTCTATTCGAGATCTCCTCGACA complete genome CCGCCTCAGCTCTGTATCGGGAGGCCT sequence TAGAGTCTCCGGAACATTGTTCTCCTC ACCATACAGC D23680.1 Hepatitis B probe_HBV_ ACTCAGGCAAGCTATTCTGTGTTGGGG SEQ ID NO: 204 virus (B4-HBVST1) 012017_96 TGAGTTGATGAATCTGGCCACCTGGGT complete genome GGGAAGTAATTTGGAAGACCCAGCAT sequence CCAGGGAATTAGTAGTCAGCTATGTCA ATGTTAATATGGG D23680.1 Hepatitis B probe_HBV_ CCTAAAAATCAGACAACTACTGTGGTT SEQ ID NO: 205 virus (B4-HBVST1) 012017_97 TCACATTTCCTGTCTTACTTTTGGAAGA complete genome GAAACTGTTCTTGAGTATTTGGTGTCTT sequence TTGGAGTGTGGATTCGCACTCCTCCTG CTTACAGACC D23680.1 Hepatitis B probe_HBV_ ACCAAATGCCCCTATCTTATCAACACT SEQ ID NO: 206 virus (B4-HBVST1) 012017_98 TCCGGAAACTACTGTTGTTAGACGACG complete genome AGGCAGGTCCCCTAGAAGAAGAACTC sequence CCTCGCCTCGCAGACGAAGGTCTCAAT CGCCGCGTCGCAG D23680.1 Hepatitis B probe_HBV_ AAGATCTCAATCTCGGGAATCTCAATG SEQ ID NO: 207 virus (B4-HBVST1) 012017_99 TTAGTATCCCTTGGACTCATAAGGTGG complete genome GAAACTTTACTGGGCTTTATTCTTCTAC sequence TGTACCTGTCTTTAATCCTGAGTGGCA AACTCCCTCCT isolate probe_HBV_ CACCAAGCTCTGATAGACCCCAGAGTA SEQ ID NO: 208 36Y18HCC″,″AB01439 012017_a_1 AGGGGCCTATACTTTCCTGCTGGTGGC 5.1 Hepatitis B virus TCCAGTTCCGGAACAGTAAACCCTGTT genomic DNA, complete CCGACTACTGCCTCACCCATATCGTCA sequence ATCTTCTCGAGG isolate probe_HBV_ CTTTCTCGCCAACTTACAAGGCCTTTCT SEQ ID NO: 209 36Y18HCC″,″AB01439 012017_a_2 GTGTAAACAATATCTGAACCTTTACCC 5.1 Hepatitis B virus CGTTGCTCGGCAACGGTCAGGTTTATG genomic DNA, complete CCAAGTGTTTGCTGACGCAACCCCCAC sequence TGGATGGGGCT isolate probe_HBV_ GGAAGGCAGGCATTCTATATAAGAGA SEQ ID NO: 210 22Y04HCC″,″AB01438 012017_a_3 GAAACTACACGCAGCGCCTCATTTTGT 1.1 Hepatitis B virus GGGTCACCATATTCTTGGGAACAAGAG genomic DNA, complete CTACAGCATGGGAGGTTGGTCTTCCAA sequence ACCTCGACAAGGC JN315779.1 Hepatitis B probe_HBV_ ACTGGATGGGGCTTGGCCATAGGCCAT SEQ ID NO: 211 virus genotype C2, 012017_a_4 CAGCGCATGCGTGGAACCTTTGTGGCT complete genome CCTCTGCCGATCCATACTGCGGAACTC ATAGAAGCTTGTTTTGCTCGCAGCCGG TCTGGAGCGAAA JN315779.1 Hepatitis B probe_HBV_ CTGAATCCCGCGGACGACCCGTCTCGG SEQ ID NO: 212 virus genotype C2, 012017_a_5 GACCGTTTGGGCCTCTACCGTCCCCTT complete genome CTTCATCTGCCGTTCCGGCCGACCACG GGGCGCACCTCTCTTTACGCGGTCTCC CCGTCTGTGCCT JN315779.1 Hepatitis B probe_HBV_ CACTCCTACCGCTTACAGACCACCAAA SEQ ID NO: 213 virus genotype C2, 012017_a_6 TGCCCCTATCTTATCAACACTTCCGGA complete genome AACTACTGTTGTTAGACGACGAGGCAG GTCCCCTAGAAGAAGAACTCCCTCGCC TCGCAGACGAAG JN315779.1 Hepatitis B probe_HBV_ CTGCTAGGTTCTATCCTAACCATACCA SEQ ID NO: 214 virus genotype C2, 012017_a_7 AATATTTGCCCTTGGATAAAGGCATTA complete genome AACCTTATTATCCTGAACATGTAGTTA ATCATTACTTCAAAACTAGGCATTATT TACATACTTTGG JN315779.1 Hepatitis B probe_HBV_ GGAAGGCTGGCATTCGGTATAAGAGA SEQ ID NO: 215 virus genotype C2, 012017_a_8 GAAACTACACGCAGCGCTTCATTTTGT complete genome GGGTCACCATATTCTTGGGAACAAGAG CTACAGCATGGGAGGTTGGTCTTCCAA ACCTCGACAAGGC

Example 2: Next-Generation Sequencing Analysis for Detection of HBV Insertion Site

2-1. DNA shearing

-   -   1) Extract genomic DNA from liver tissue of a patient with         hepatitis and crush (sonication) it into nucleotides of about         100 to 120 base pairs in length. After diluting 1 μg of gDNA         passed through Quality Control (QC) on a 96-well plate with 60         μL, transfer it to a Covaris strip tube and seal with sealing         tape.     -   2) Transfer the strip tube to a steel rack and mount it on a         device.     -   3) As Table 3 below, shear it after setting Covaris (Covaris         LE200).

TABLE 3 Duty Factor 30 PIP, W 400 Cycles per Burst 200 Time (seconds) 100 Temperature 5 to 9° C.

-   -   2) Sample purification     -   1) Transfer the sheared sample into a new 1.5 mL tube.     -   2) Place 90 μL of AMPure beads, vortex it for 5 seconds, and         perform incubation at room temperature for 5 minutes.     -   3) Place the sample in a magnetic particle concentrator (MPC),         and after 3 minutes, discard the supernatant.     -   4) Add 200 μL of 70% ethanol while the sample is in MPC, and         after 1 minute, discard the supernatant (repeat twice).     -   5) Completely dry the beads (5 minutes to 10 minutes).     -   6) Remove the sample tube from MPC, add 50 μL of nuclease-free         water, and resuspend AMPure beads.     -   7) After incubating at room temperature for 2 minutes to 3         minutes, spin it down.     -   8) Place the sample in MPC, and after 2 minutes, transfer 48 μL         of the supernatant into a new 1.5 mL tube.

2-3. Repairing the ends

-   -   1) After mixing all of the components of Table 4 below, lid off         in PCR and perform at 20° C. for 30 minutes.

TABLE 4 Component Volume DNA sample 48 μL Water 35.2 μL End repair buffer 10 μL dNTP mix 1.6 μL T4 DNA polymerase 1 μL Klenow DNA polymerase 2 μL T4 PNK 2.2 μL Total 100 μL

-   -   2) Sample purification         -   Place the sample performed in 3. 1) above into a new 1.5 mL             tube.         -   Place 180 μL of AMPure beads (1.8X), vortex it for 5             seconds, and perform incubation for 5 minutes at room             temperature.         -   Place the sample in a magnetic particle concentrator (MPC),             and after 3 minutes, discard the supernatant.         -   While the sample is in MPC, add 200 μL of 70% ethanol, and             after 1 minute, discard the supernatant (repeat twice).         -   Completely dry the beads (5 minutes to 10 minutes).         -   Remove the sample tube from MPC, add 32 μL of nuclease-free             water, and resuspend AMPure beads.         -   After incubating for 2 minutes to 3 minutes at room             temperature, spin it down.         -   Place the sample in MPC, and after 2 minutes, transfer 30 μL             of the supernatant into a new 1.5 mL tube.

2-4. Addition of A′ base to the 3′ end of DNA fragment

-   -   1) After adding all of the components of Table 5 below, lid off         in PCR and perform at 37° C. for 30 minutes.

TABLE 5 Component Volume DNA sample 30 μL Water 11 μL 10X Klenow DNA polymerase buffer 5 μL dATP 1 μL Klenow exo(3′ to 5′ exo minus) 3 μL Total 50 μL

-   -   2) Sample purification         -   Place the sample performed in 4. 1) above into a new 1.5 mL             tube.         -   Place 180 μL of AMPure beads (1.8X), vortex it for 5             seconds, and perform incubation for 5 minutes at room             temperature.         -   Place the sample in a magnetic particle concentrator (MPC),             and after 3 minutes, discard the supernatant.         -   While the sample is in MPC, add 200 μL of 70% ethanol, and             after 1 minute, discard the supernatant (repeat twice).         -   Completely dry the beads (5 minutes to 10 minutes).         -   Remove the sample tube from MPC, add 15 μL of nuclease-free             water, and resuspend AMPure beads.         -   After incubating for 2 minutes to 3 minutes at room             temperature, spin it down.         -   Place the sample in MPC, and after 2 minutes, transfer 13 μL             of the supernatant into a new 1.5 mL tube.

2-5. Adapter ligation to DNA fragment

-   -   1) After adding all of the components of Table 6 below, lid off         in PCR and perform at 20° C. for 15 minutes.

TABLE 6 Component Volume DNA sample 13 μL Water 15.5 μL 5X T4 DNA ligase buffer 10 μL Adapter oligo mix 10 μL T4 DNA ligase 1.5 μL Total 50 μL

-   -   2) Sample purification         -   Place the sample performed in 2-5. 1) above into a new 1.5             mL tube.         -   Place 180 μL of AMPure beads (1.8X), vortex it for 5             seconds, and perform incubation for 5 minutes at room             temperature.         -   Place the sample in a magnetic particle concentrator (MPC),             and after 3 minutes, discard the supernatant.         -   While the sample is in MPC, add 200 μL of 70% ethanol, and             after 1 minute, discard the supernatant (repeat twice).         -   Completely dry the beads (5 minutes to 10 minutes).         -   Remove the sample tube from MPC, add 17 μL of nuclease-free             water, and resuspend AMPure beads.         -   After incubating for 2 minutes to 3 minutes at room             temperature, spin it down.         -   Place the sample in MPC, and after 2 minutes, transfer 15 μL             of the supernatant into a new 1.5 mL tube.

2-6. Amplification of adapter-ligated library

-   -   1) Prepare components in Table 7 below.

TABLE 7 Component Volume Index Adapter-ligated library 15 μL Water 21 μL SureSelect primer 1.0 (Forward) 1.25 μL SureSelect Indexing Pre-Capture PCR(Reverse) 1.25 μL Primer Herculase 5X Reaction Buffer 10 μL dNTP mix 0.5 μL Herculase II polymerase 1 μL Total 50 μL

-   -   2) Amplify according to the Pre-LM PCR program below.

TABLE 8 Step PCR step Time Step 1. 98° C. 2 mins Step 2. 98° C. 30 s Step 3. 65° C. 30 s Step 4. 72° C. 1 min Step 5. Repeat Steps 2 to 4 for 6 times Step 6. 72° C. 10 minutes Step 7.  4° C. Hold

-   -   2-7. Sample purification         -   Transfer the sample passed through the steps above into a             new 1.5 mL tube.         -   Place 180 μL of AMPure beads (1.8X), vortex it for 5             seconds, and perform incubation for 5 minutes at room             temperature.         -   Place the sample in a magnetic particle concentrator (MPC),             and after 3 minutes, discard the supernatant.         -   While the sample is in MPC, add 200 μL of 70% ethanol, and             after 1 minute, discard the supernatant (repeat twice).         -   Completely dry the beads (5 minutes to 10 minutes).         -   Remove the sample tube from MPC, add 17 μL of nuclease-free             water, and resuspend AMPure beads.         -   After incubating for 2 minutes to 3 minutes at room             temperature, spin it down.         -   Place the sample in MPC, and after 2 minutes, transfer 15 μL             of the supernatant into a new 1.5 mL tube.

2-8. Assessment of quality and quantity

In order to confirm whether the library size was made within the intended range to optimize the efficiency of hybridization and to confirm the concentration to check if the amount at which hybridization could be attempted was achieved, the size and concentration of a library were measured using Agilent 4200 Tape Station and D1000 Screen Tape, and the result was shown in FIG. 2 . As shown in FIG. 2 , peaks having a DNA library size of about 250 bp to 350 bp were mostly observed.

2-9. Hybridization

-   -   1) Drill a hole in a 1.5 mL tube lid and dispense 200 ng or more         and 500 ng or less of the prepped library.     -   2) Completely dry using SpeedVac (45° C.) (60 minutes).     -   3) After making a block mix as below, place 5.6 μL each into a         dried tube, vortex lightly, and resuspend the library (prepped         library).

TABLE 9 Component Volume Pre-LM sample 500 ng 3.4 μL SureSelect Block #1 (green cap) 2.5 μL SureSelect Block #2 (blue cap) 2.5 μL SureSelect Block #3 (brown cap) 0.6 μL Total   9 μL

-   -   4) After making a hybridization buffer with the composition of         Table 10 below, dispense 0.2 mL into a PCR tube.

TABLE 10 Component Volume SureSelect Hyb #1 6.63 μL SureSelect Hyb #2 (red) 0.27 μL SureSelect Hyb #3 (yellow) 2.65 μL SureSelect Hyb #4 3.45 μL Total   13 μL

-   -   5) Perform RNase block dilution as Table 11 below.

TABLE 11 Capture Library Size RNase Block dilution 3.0 Mb or more 25% (1:3) 3.0 Mb or less 10% (1:9)

-   -   6-1) The volume used for hybridization is different depending on         the total size of a probe. It is because the concentration of         the probe itself is different. Since the volume is different,         the dilution ratio and the used volume of the RNase block should         be different. The final concentration of RNase block is the same         as 6-1 and 6-2. As a result, in the case of a general bait of 3         MB or more, it is applied to a large-sized probe targeting the         entire exome.

TABLE 12 Component Volume Hybridization Buffer mixture from step 4 13 μL 25% RNase Block solution from step 5-1, 5-2  2 μL Capture Library 3 Mb  5 μL Total 20 μL

-   -   6-2) The volume used for hybridization is different depending on         the total size of a probe. It is because the concentration of         the probe itself is different. Since the volume is different,         the dilution ratio and the used volume of the RNase block should         be different. The final concentration of RNase block is the same         as 6-1 and 6-2. In the case of a general bait of 3 MB or less,         it was applied in this experiment.

TABLE 13 Component Volume Hybridization Buffer mixture from step 4 13 μL 10% RNase Block solution from step 5-1, 5-2  5 μL Capture Library 3 Mb  2 μL Total 20 μL

-   -   7) For gDNA library+block mix plate or a strip tube (prepped         library), set up the PCR program as below and perform.

TABLE 14 PCR program Time Lid temperature: 105° C. 95° C. 5 minutes 65° C. Hold

-   -   8) When the temperature of a prepped library (an entire set of         libraries made available for NGS sequencing of gDNA samples used         in the experiment) sample reaches 65° C., place the prepped         library sample in a capture library (a set of probes including a         target area of the size of 120 nt) and a hybridization mix (a         reagent (buffer) to enable hybridization conditions) prepared         above, and mix well by pipetting up and down for 3 to 5 times.     -   9) Close the lid well and hybridize for 24 hours at 65° C. (lid         105° C.) (up to 72 hours is possible).

2-10. Preparation of magnetic beads

-   -   1) Preheat SureSelect Wash Buffer #2 in a water bath (65° C.).     -   2) Vortex well Dynal MyOne Streptavidin T1 (Invitrogen) magnetic         beads.     -   3) Dispense 50 μL per sample into a 1.5 mL tube.     -   4) Wash the beads as the following.     -   a. Place 200 μL of SureSelect Binding buffer and vortex lightly.     -   b. After spinning down, place it in DynaMag-2 device for 1         minute, and remove the supernatant.     -   c. Repeat the above process for a total of 3 times.     -   5) Resuspend the beads washed in 200 μL of SureSelect Binding         buffer.

2-11. Hybridization capture selection with SureSelect

-   -   1) After mixing a hybridization mixture and a bead solution,         mount it on a rotator and perform a reaction at room temperature         for 30 minutes (check if the sample in the tube is mixed well).     -   2) After spinning down, place it in DynaMag-2 device for 3         minutes and remove the supernatant.     -   3) Place 200 μL of SureSelect Wash Buffer #1 and vortex until         the beads are completely resuspended.     -   4) Incubate at room temperature for 15 minutes. Lightly vortex         every 5 minutes to mix the beads well.     -   5) After spinning down, place it in DynaMag-2 device for 3         minutes and remove the supernatant.     -   6) Wash the beads as the following.     -   a. Place 200 μL of prewarmed SureSelect Wash Buffer #2 and         vortex until the beads are completely resuspended.     -   b. Incubate at 65° C. for 10 minutes. Lightly vortex every 5         minutes to mix the beads well.     -   c. After spinning down, place it in DynaMag-2 device and remove         the supernatant.     -   d. Repeat the above process for a total of 3 times.     -   7) Place 30 μL of nuclease-free water in MPC and resuspend.

2-12. Addition of index tags by amplification after hybridization (post-hybridization)

-   -   1) Prepare reagents as in Table 15 below.

TABLE 15 Reagent Volume Captured DNA 30 μL Water 6.5 μL Herculase 5X Reaction Buffer 10 μL dNTP mix (25 mM each) 0.5 μL Herculase II DNA polymersase 1 μL SureSelect Indexing Post-Capture PCR (Forward) Primer 1 μL Index PCR (reverse) primer 1 μL Total 50 μL

-   -   2) Perform amplification according to the PCR program below.

TABLE 16 Step PCR step Time Step 1. 98° C. 1 min Step 2. 98° C. 20 s Step 3. 57° C. 1 min Step 4. 72° C. 1 min Step 5. Repeat steps 2 to 4 for 11 times Step 6. 72° C. 10 minutes Step 7.  4° C. Hold

2-13. Purification of sample using Agencourt AMPure XP beads

-   -   1) Vortex 50 μL of the amplified DNA library and 90 μL of AMPure         beads (1.8X) and mix.     -   2) Incubate at room temperature for 5 minutes.     -   3) Place the sample in a magnetic particle concentrator (MPC),         and after 3 minutes, discard the supernatant.     -   4) Add 500 μL of 70% ethanol while the sample is in MPC, and         after 1 minute, discard the supernatant (repeat twice).     -   5) Completely dry the beads (5 minutes to 10 minutes).     -   6) Remove the sample tube from MPC, add 15 μL of nuclease-free         water, and resuspend AMPure beads.     -   7) After incubating at room temperature for 2 minutes to 3         minutes, spin it down. 8) Place the sample in MPC, and after 2         minutes, place 30 μL of the supernatant into a new 1.5 mL tube.

2-14. Confirmation of Library It is a library state after hybridization has been performed and only a target region has been amplified. In FIG. 2 , only the target region was selected from the entire library, and the library size was increased by 50 bp at once while adding an index and the like during the amplification process. It is the library at the final stage for sequencing, and in order to finally confirm whether sequencing is possible (determining whether or not a library is made normally), the size and state of the DNA library are confirmed using Agilent 4200 TapeStation and D1000 ScreenTape, and the concentration of the DNA library is confirmed using qPCR. As shown in FIG. 3 , the library size has peaks of 250 bp to 350 bp.

2-15. Analysis of HBV Gene Insertion Site

The sequenced reads were mapped to the reference sequence (HBV+Human genome) to create a BAM file, which is a binary of the Sequence Alignment map (SAM) file. Among the mapped reads, the chimeric read that was split-mapped to HBV and the human genome was selected to identify break points. Next, for each point, a region that satisfied read count >10, average mapping quality (MQ)>20 was defined as an HBV-human integration site, and the location of HBV and the human genome was searched. Recurrently inserted human genes were collected, gene-annotation was performed and analyzed to discover the overall biological function of each gene, and the results were shown in FIG. 4 . As shown in FIG. 4 , it was found that the HBV virus was inserted into the overall human whole genome, and in particular, it was confirmed that the insertion rate was high in the TERT protomer region of chromosome number 5. Through this, it is possible to comprehensively infer the effect of HBV insertion on the human genome. HBV insertion is an important direct tumor-inducing phenomenon in the occurrence of liver cancer, and understanding of an insight into its biological action is required, but there is little understanding of HBV insertion until now. Meanwhile, the NGS technique has become available to identify non-biased insertion sites therefor, but whole genome sequencing (WGS, full-length genome sequencing) is very difficult to use in clinical practice due to its cost limitations. The present invention described above is a sequencing method that applies the existing NGS technique targeting HBV inserted in the human genome, and since it is a high-depth sequencing analysis that is more efficient than WGS and can detect more HBV insertion sites at a cost of about ⅓ of the WGS method, it is considered that the academic-clinical value thereof will be very high in the future compared to its cost-effectiveness. 

What is claimed is:
 1. A probe composition for detecting hepatitis B virus (HBV) comprising 215 probes, each probe of the 215 probes comprising a unique nucleotide sequence from other probes of the 215 probes, each unique nucleotide sequence consisting of the nucleotide sequences of SEQ ID NO: 1 to SEQ ID NO: 215 with additional nucleotides of each probe comprising a nucleotide sequence comprising at least one adapter sequence.
 2. The probe composition of claim 1, wherein the probe composition is capable of detecting an insertion site of hepatitis B virus in a human genome, wherein the human genome is derived from liver tissue of a patient with hepatitis.
 3. The probe composition of claim 1, wherein the probe composition is capable of detecting an insertion site of hepatitis B virus (HBV) using an analysis method of next-generation sequencing.
 4. The probe composition of claim 1, wherein the length of each of the 215 probes is greater than 120 base pairs.
 5. A kit for detecting hepatitis B virus (HBV), comprising the probe composition of claim
 1. 6. A method for detecting hepatitis B virus (HBV) through next-generation sequencing (NGS), the method comprising hybridizing a target sample with the probe composition of claim 1 to capture a target gene.
 7. The method of claim 6, wherein the hybridizing is performed at a temperature of 65° C. for 16 hours to 24 hours.
 8. A method for detecting hepatitis B virus (HBV), comprising: (a) hybridizing a target sample comprising a target gene with the probe composition of claim 1 to capture a target gene and amplifying to create a library for next-generation sequencing analysis; and (b) sequencing the library to confirm an insertion site of hepatitis B virus (HBV) in a human genome.
 9. The method of claim 8, wherein the hybridizing is performed at a temperature of 65° C. for 16 hours to 24 hours.
 10. A method for providing information for a diagnosis of liver cancer, using the method of claim
 8. 